elna/boot/stage16/cl.elna

(*
 * This Source Code Form is subject to the terms of the Mozilla Public License,
 * v. 2.0. If a copy of the MPL was not distributed with this file, You can
 * obtain one at https://mozilla.org/MPL/2.0/.
 *)
program;

(* Stage 16 compiler. *)

type
	(**
	 * List of intermediate representation items.
	 *)
	ElnaInstructionList = record
		next: Word
	end;
	ElnaInstructionDeclaration = record
		next: Word;
		name: Word;
		length: Word;
		body: Word;
		stack: Word
	end;
	_node = record
		kind: Word
	end;
	_integer_literal_node = record
		kind: Word;
		value: Word;
		length: Word
	end;
	_character_literal_node = record
		kind: Word;
		value: Word;
		length: Word
	end;
	_nil_node = record
		kind: Word
	end;
	_variable_expression = record
		kind: Word;
		name: Word;
		length: Word
	end;
	_string_literal_node = record
		kind: Word;
		value: Word;
		length: Word
	end;
	_dereference_expression = record
		kind: Word;
		pointer: Word
	end;
	_binary_expression = record
		kind: Word;
		lhs: Word;
		rhs: Word;
		operator: Word
	end;
	_unary_expression = record
		kind: Word;
		operand: Word;
		operator: Word
	end;
	_if_statement = record
		kind: Word;
		next: Word;
		conditionals: Word;
		_else: Word
	end;

	(**
	 * All statements are chained into a list. Next contains a pointer to the next
	 * statement in the statement list.
	 *)
	_statement = record
		kind: Word;
		next: Word
	end;
	_goto_statement = record
		kind: Word;
		next: Word;
		label: Word;
		length: Word
	end;
	_label_declaration = record
		kind: Word;
		next: Word;
		label: Word;
		length: Word
	end;
	_field_access_expression = record
		kind: Word;
		aggregate: Word;
		field: Word;
		length: Word
	end;
	ElnaInstructionModule = record
		data: Word;
		code: Word
	end;
	_module_declaration = record
		kind: Word;
		types: Word;
		globals: Word;
		procedures: Word
	end;
	_assign_statement = record
		kind: Word;
		next: Word;
		assignee: Word;
		assignment: Word
	end;
	_return_statement = record
		kind: Word;
		next: Word;
		returned: Word
	end;
	_type = record
		kind: Word;
		size: Word
	end;
	_enumeration_type = record
		kind: Word;
		size: Word;
		members: Word;
		length: Word
	end;
	_enumeration_type_expression = record
		kind: Word;
		members: Word;
		length: Word
	end;
	_record_type = record
		kind: Word;
		size: Word;
		members: Word;
		length: Word
	end;
	_record_type_expression = record
		kind: Word;
		members: Word;
		length: Word
	end;
	_named_type_expression = record
		kind: Word;
		name: Word;
		length: Word
	end;
	_info = record
		kind: Word
	end;
	_type_info = record
		kind: Word;
		_type: Word
	end;
	_parameter_info = record
		kind: Word;
		offset: Word
	end;
	_temporary_info = record
		kind: Word;
		offset: Word
	end;
	_procedure_info = record
		kind: Word;
		symbol_table: Word
	end;

	(**
	 * Conditional statements is a list of pairs: condition and statements.
	 * Used for example to represent if and elsif blocks with beloning statements.
	 *)
	_conditional_statements = record
		condition: Word;
		statements: Word;
		next: Word
	end;

	_declaration = record
		kind: Word;
		next: Word;
		name: Word;
		length: Word
	end;
	_procedure_declaration = record
		kind: Word;
		next: Word;
		name: Word;
		length: Word;
		body: Word;
		temporaries: Word;
		parameters: Word
	end;
	_type_declaration = record
		kind: Word;
		next: Word;
		name: Word;
		length: Word;
		_type: Word
	end;
	_variable_declaration = record
		kind: Word;
		next: Word;
		name: Word;
		length: Word;
		_type: Word
	end;

	ElnaLexerAction = (none, accumulate, skip, single, eof, finalize, composite, key_id, integer, delimited);

	(**
	 * Classification table assigns each possible character to a group (class). All
	 * characters of the same group a handled equivalently.
	 *
	 * Transition = record
	 *   action: TransitionAction;
	 *   next_state: TransitionState
	 * end;
	 *)
	ElnaLexerClass = (
		invalid,
		digit,
		alpha,
		space,
		colon,
		equals,
		left_paren,
		right_paren,
		asterisk,
		backslash,
		single,
		hex,
		zero,
		x,
		eof,
		dot,
		minus,
		single_quote,
		double_quote,
		greater,
		less,
		other
	);
	ElnaLexerState = (
		start,
		colon,
		identifier,
		decimal,
		leading_zero,
		greater,
		minus,
		left_paren,
		less,
		dot,
		comment,
		closing_comment,
		character,
		character_escape,
		string,
		string_escape,
		finish
	);
	ElnaLexerKind = (
		identifier,
		_const,
		_var,
		_proc,
		_type,
		_begin,
		_end,
		_if,
		_then,
		_else,
		_elsif,
		_while,
		_do,
		_extern,
		_record,
		_true,
		_false,
		null,
		and,
		_or,
		_xor,
		pipe,
		not,
		_return,
		_module,
		_program,
		_import,
		_cast,
		_defer,
		_case,
		_of,
		trait,
		left_paren,
		right_paren,
		left_square,
		right_square,
		shift_left,
		shift_right,
		greater_equal,
		less_equal,
		greater_than,
		less_than,
		not_equal,
		equals,
		semicolon,
		dot,
		comma,
		plus,
		arrow,
		minus,
		multiplication,
		division,
		remainder,
		assignment,
		colon,
		hat,
		at,
		comment,
		string,
		character,
		integer,
		word,
		_goto,
		eof
	);
	NodeKind = (
		integer_literal,
		string_literal,
		character_literal,
		variable_expression,
		field_access_expression,
		dereference_expression,
		unary_expression,
		binary_expression,
		call,
		goto_statement,
		label_declaration,
		return_statement,
		assign_statement,
		if_statement,
		procedure_declaration,
		variable_declaration,
		enumeration_type_expression,
		named_type_expression,
		type_declaration,
		module_declaration,
		record_type_expression,
		null
	);
	InfoKind = (type_info, parameter_info, temporary_info, procedure_info);
	TypeKind = (primitive, enumeration, _record);
	ElnaTacOperator = (
		get_address,
		add,
		load,
		store,
		proc_call,
		copy,
		subtract,
		divide,
		remainder,
		multiply,
		_xor,
		_or,
		and,
		less_than,
		greater_than,
		less_or_equal,
		greater_or_equal,
		equal,
		not_equal,
		negate,
		complement,
		jump,
		jump_if_zero,
		jump_if_not_zero,
		label,
		_return
	);
	ElnaRtlOperator = (
		li,
		la,
		add,
		addi,
		lw,
		sw,
		jal,
		move,
		sub,
		div,
		rem,
		mul,
		_xor,
		_or,
		and,
		seqz,
		snez,
		slt,
		xori,
		neg,
		not,
		j,
		beqz,
		bnez,
		label,
		allocate_stack,
		ret
	);
	ElnaTacOperand = (temporary, immediate, symbol, stack);
	ElnaRtlOperand = (register, immediate, symbol, offset);
	ElnaRtlRegister = (
		zero,
		ra,
		sp,
		gp,
		tp,
		t0,
		t1,
		t2,
		s0,
		s1,
		a0,
		a1,
		a2,
		a3,
		a4,
		a5,
		a6,
		a7,
		s2,
		s3,
		s4,
		s5,
		s6,
		s7,
		s8,
		s9,
		s10,
		s11,
		t3,
		t4,
		t5,
		t6
	);

var
	symbol_table_global: Array;
	compiler_strings: Array;
	classification: Array;

	source_code: Word;
	compiler_strings_position: Word;
	compiler_strings_length: Word;
	label_counter: Word;
	symbol_table_store: Word;
	temporary_variable_counter: Word;

(**
 * Calculates and returns the string token length between quotes, including the
 * escaping slash characters.
 *
 * Parameters:
 * string - String token pointer.
 *
 * Returns the length in a0.
 *)
proc _string_length(string: Word);
var
	counter: Word;
	current_byte: Word;
begin
	(* Reset the counter. *)
	counter := 0;

	.string_length_loop;
	string := string + 1;

	current_byte := _load_byte(string);
	if current_byte <> '"' then
		counter := counter + 1;
		goto string_length_loop
	end;

	return counter
end;

(**
 * Adds a string to the global, read-only string storage.
 *
 * Parameters:
 * string - String token.
 *
 * Returns the offset from the beginning of the storage to the new string in a0.
 *)
proc _add_string(string: Word);
var
	contents: Word;
	result: Word;
	current_byte: Word;
begin
	contents := string + 1;
	result := compiler_strings_length;

	.add_string_loop;
	current_byte := _load_byte(contents);
	if current_byte <> '"' then
		_store_byte(current_byte, compiler_strings_position);
		compiler_strings_position := compiler_strings_position + 1;
		contents := contents + 1;

		if current_byte <> '\\' then
			compiler_strings_length := compiler_strings_length + 1
		end;
		goto add_string_loop
	end;

	return result
end;

(**
 * Reads standard input into a buffer.
 *
 * Parameters:
 * buffer - Buffer pointer.
 * size - Buffer size.
 *
 * Returns the amount of bytes written in a0.
 *)
proc _read_file(buffer: Word, size: Word);
	return _syscall(0, buffer, size, 0, 0, 0, 63)
end;

(**
 * Writes to the standard output.
 *
 * Parameters:
 * buffer - Buffer.
 * size - Buffer length.
 *)
proc _write_s(buffer: Word, size: Word);
begin
	_syscall(1, buffer, size, 0, 0, 0, 64)
end;

(**
 * Writes a number to a string buffer.
 *
 * Parameters:
 * number - Whole number.
 * output_buffer - Buffer pointer.
 *
 * Sets a0 to the length of the written number.
 *)
proc _print_i(number: Word, output_buffer: Word);
var
	local_buffer: Word;
	is_negative: Word;
	current_character: Word;
	result: Word;
begin
	local_buffer := @result + 11;

	if number >= 0 then
		is_negative := 0
	else
		number = -number;
		is_negative := 1
	end;

	.print_i_digit10;
	current_character := number % 10;
	_store_byte(current_character + '0', local_buffer);

	number := number / 10;
	local_buffer := local_buffer - 1;

	if number <> 0 then
		goto print_i_digit10
	end;
	if is_negative = 1 then
		_store_byte('-', local_buffer);
		local_buffer := local_buffer - 1
	end;
	result := @result + 11;
	result := result - local_buffer;
	memcpy(output_buffer, local_buffer + 1, result);

	return result
end;

(**
 * Writes a number to the standard output.
 *
 * Parameters:
 * number - Whole number.
 *)
proc _write_i(number: Word);
var
	local_buffer: Word;
	length: Word;
begin
	length := _print_i(number, @local_buffer);
	_write_s(@local_buffer, length)
end;

(**
 * Writes a character from a0 into the standard output.
 *
 * Parameters:
 * character - Character to write.
 *)
proc _write_c(character: Word);
begin
	_write_s(@character, 1)
end;

(**
 * Write null terminated string.
 *
 * Parameters:
 * string - String.
 *)
proc _write_z(string: Word);
var
	next_byte: Word;
begin
	(* Check for 0 character. *)
	next_byte := _load_byte(string);

	if next_byte <> 0 then
		(* Print a character. *)
		_write_c(next_byte);

		(* Advance the input string by one byte. *)
		_write_z(string + 1)
	end
end;

(**
 * Detects if the passed character is a 7-bit alpha character or an underscore.
 *
 * Paramters:
 * character - Tested character.
 *
 * Sets a0 to 1 if the character is an alpha character or underscore, sets it to 0 otherwise.
 *)
proc _is_alpha(character: Word);
var
	is_underscore: Word;
begin
	is_underscore := character = '_';

	return isalpha(character) or is_underscore
end;

proc _is_alnum(character: Word);
	return _is_alpha(character) or isdigit(character)
end;

proc _elna_tac_instruction_size();
	return 44
end;

proc _elna_tac_instruction_get_kind(this: Word);
begin
	this := this + 4;
	return this^
end;

proc _elna_tac_instruction_set_kind(this: Word, value: Word);
begin
	this := this + 4;
	this^ := value
end;

proc elna_instruction_list_concatenate(this: Word, value: Word);
var
	start: Word;
begin
	if this = 0 then
		start := value;
		goto elna_instruction_list_concatenate_end
	else
		start := this
	end;
	.elna_instruction_list_concatenate_loop;
	if value <> 0 then
		if this^ <> 0 then
			this := this^;
			goto elna_instruction_list_concatenate_loop
		end
	end;
	this^ := value;
	.elna_instruction_list_concatenate_end;
	return start
end;

proc _elna_tac_instruction_get_operand_type(this: Word, n: Word);
begin
	n := n - 1;
	n := n * 12;
	this := this + 8;
	this := this + n;

	return this^
end;

proc _elna_tac_instruction_get_operand_value(this: Word, n: Word);
begin
	n := n - 1;
	n := n * 12;
	this := this + 8;
	this := this + n;

	this := this + 4;
	return this^
end;

proc _elna_tac_instruction_get_operand_length(this: Word, n: Word);
begin
	n := n - 1;
	n := n * 12;
	this := this + 8;
	this := this + n;

	this := this + 8;
	return this^
end;

proc _elna_tac_instruction_set_operand(this: Word, n: Word, operand_type: Word, operand_value: Word, operand_length: Word);
begin
	n := n - 1;
	n := n * 12;
	this := this + 8;
	this := this + n;

	this^ := operand_type;
	this := this + 4;
	this^ := operand_value;
	this := this + 4;
	this^ := operand_length
end;

proc _elna_tac_instruction_create(kind: Word);
var
	result: Word;
begin
	result := malloc(_elna_tac_instruction_size());

	_elna_tac_instruction_set_kind(result, kind);
	elna_instruction_list_concatenate(result, 0);

	return result
end;

proc elna_rtl_instruction_create(kind: Word);
var
	result: Word;
begin
	result := malloc(elna_rtl_instruction_size());

	elna_rtl_instruction_set_kind(result, kind);
	ElnaInstructionList_set_next(result, 0);

	return result
end;

proc elna_rtl_instruction_size();
	return 44
end;

proc elna_rtl_instruction_get_kind(this: Word);
begin
	this := this + 4;
	return this^
end;

proc elna_rtl_instruction_set_kind(this: Word, value: Word);
begin
	this := this + 4;
	this^ := value
end;

proc elna_rtl_instruction_get_operand_type(this: Word, n: Word);
begin
	n := n - 1;
	n := n * 12;
	this := this + 8;
	this := this + n;

	return this^
end;

proc elna_rtl_instruction_get_operand_value(this: Word, n: Word);
begin
	n := n - 1;
	n := n * 12;
	this := this + 8;
	this := this + n;

	this := this + 4;
	return this^
end;

proc elna_rtl_instruction_get_operand_length(this: Word, n: Word);
begin
	n := n - 1;
	n := n * 12;
	this := this + 8;
	this := this + n;

	this := this + 8;
	return this^
end;

proc elna_rtl_instruction_set_operand(this: Word, n: Word, operand_type: Word, operand_value: Word, operand_length: Word);
begin
	n := n - 1;
	n := n * 12;
	this := this + 8;
	this := this + n;

	this^ := operand_type;
	this := this + 4;
	this^ := operand_value;
	this := this + 4;
	this^ := operand_length
end;

proc elna_rtl_load_operand_value(tac_instruction: Word, operand_number: Word, into: Word);
var
	result: Word;
	operand_value: Word;
	operand_length: Word;
	operand_type: Word;
	next_instruction: Word;
begin
	operand_value := _elna_tac_instruction_get_operand_value(tac_instruction, operand_number);
	operand_length := _elna_tac_instruction_get_operand_length(tac_instruction, operand_number);
	operand_type := _elna_tac_instruction_get_operand_type(tac_instruction, operand_number);

	if operand_type = ElnaTacOperand.immediate then
		result := elna_rtl_instruction_create(ElnaRtlOperator.li);
		elna_rtl_instruction_set_operand(result, 1, ElnaRtlOperand.register, into, 0);
		elna_rtl_instruction_set_operand(result, 2, ElnaRtlOperand.immediate, operand_value, operand_length)
	elsif operand_type = ElnaTacOperand.stack then
		result := elna_rtl_instruction_create(ElnaRtlOperator.lw);
		elna_rtl_instruction_set_operand(result, 1, ElnaRtlOperand.register, into, 0);
		elna_rtl_instruction_set_operand(result, 2, ElnaRtlOperand.offset, ElnaRtlRegister.sp, operand_value)
	elsif operand_type = ElnaTacOperand.symbol then
		result := elna_rtl_instruction_create(ElnaRtlOperator.la);
		elna_rtl_instruction_set_operand(result, 1, ElnaRtlOperand.register, into, 0);
		elna_rtl_instruction_set_operand(result, 2, ElnaRtlOperand.symbol, operand_value, operand_length);

		next_instruction := elna_rtl_instruction_create(ElnaRtlOperator.lw);
		elna_rtl_instruction_set_operand(next_instruction, 1, ElnaRtlOperand.register, into, 0);
		elna_rtl_instruction_set_operand(next_instruction, 2, ElnaRtlOperand.offset, into, 0);

		ElnaInstructionList_set_next(result, next_instruction)
	elsif operand_type = ElnaTacOperand.temporary then
		result := elna_rtl_instruction_create(ElnaRtlOperator.move);
		elna_rtl_instruction_set_operand(result, 1, ElnaRtlOperand.register, into, 0);
		elna_rtl_instruction_set_operand(result, 2, ElnaRtlOperand.register, operand_value, 0)
	end;

	return result
end;

proc elna_rtl_load_operand_address(tac_instruction: Word, operand_number: Word, into: Word);
var
	result: Word;
	operand_value: Word;
	operand_length: Word;
	operand_type: Word;
begin
	operand_value := _elna_tac_instruction_get_operand_value(tac_instruction, operand_number);
	operand_length := _elna_tac_instruction_get_operand_length(tac_instruction, operand_number);
	operand_type := _elna_tac_instruction_get_operand_type(tac_instruction, operand_number);

	if operand_type = ElnaTacOperand.stack then
		result := elna_rtl_instruction_create(ElnaRtlOperator.addi);
		elna_rtl_instruction_set_operand(result, 1, ElnaRtlOperand.register, into, 0);
		elna_rtl_instruction_set_operand(result, 2, ElnaRtlOperand.offset, ElnaRtlRegister.sp, operand_value)
	elsif operand_type = ElnaTacOperand.symbol then
		result := elna_rtl_instruction_create(ElnaRtlOperator.la);
		elna_rtl_instruction_set_operand(result, 1, ElnaRtlOperand.register, into, 0);
		elna_rtl_instruction_set_operand(result, 2, ElnaRtlOperand.symbol, operand_value, operand_length)
	end;

	return result
end;

proc elna_rtl_binary_operands(tac_instruction: Word, next_instruction: Word);
var
	lhs: Word;
	rhs: Word;
begin
	lhs := elna_rtl_load_operand_value(tac_instruction, 2, ElnaRtlRegister.t2);
	rhs := elna_rtl_load_operand_value(tac_instruction, 3, ElnaRtlRegister.t3);

	next_instruction^ := ElnaInstructionList_get_next(lhs);
	if next_instruction^ = 0 then
		ElnaInstructionList_set_next(lhs, rhs)
	else
		ElnaInstructionList_set_next(next_instruction^, rhs)
	end;
	next_instruction^ := ElnaInstructionList_get_next(rhs);
	if next_instruction^ = 0 then
		next_instruction^ := rhs
	end;

	return lhs
end;

proc elna_rtl_binary_arithmetic(tac_instruction: Word, next_instruction: Word, operation: Word);
var
	lhs: Word;
	binary_result: Word;
begin
	lhs := elna_rtl_binary_operands(tac_instruction, next_instruction);
	binary_result := elna_rtl_instruction_create(operation);

	elna_rtl_copy_operand(tac_instruction, 1, binary_result);
	elna_rtl_instruction_set_operand(binary_result, 2, ElnaRtlOperand.register, ElnaRtlRegister.t2, 0);
	elna_rtl_instruction_set_operand(binary_result, 3, ElnaRtlOperand.register, ElnaRtlRegister.t3, 0);
	elna_rtl_instruction_set_kind(binary_result, operation);

	ElnaInstructionList_set_next(next_instruction^, binary_result);
	next_instruction^ := binary_result;

	return lhs
end;

proc elna_rtl_binary_equality(tac_instruction: Word, instruction_kind: Word, next_instruction: Word);
var
	operands: Word;
	intermediate_instruction: Word;
	binary_result: Word;
begin
	operands := elna_rtl_binary_operands(tac_instruction, next_instruction);
	intermediate_instruction := elna_rtl_instruction_create(ElnaRtlOperator._xor);

	elna_rtl_instruction_set_operand(intermediate_instruction, 1, ElnaRtlOperand.register, ElnaRtlRegister.t2, 0);
	elna_rtl_instruction_set_operand(intermediate_instruction, 2, ElnaRtlOperand.register, ElnaRtlRegister.t2, 0);
	elna_rtl_instruction_set_operand(intermediate_instruction, 3, ElnaRtlOperand.register, ElnaRtlRegister.t3, 0);
	ElnaInstructionList_set_next(next_instruction^, intermediate_instruction);
	next_instruction^ := intermediate_instruction;

	binary_result := elna_rtl_instruction_create(instruction_kind);
	elna_rtl_copy_operand(tac_instruction, 1, binary_result);
	elna_rtl_instruction_set_operand(binary_result, 2, ElnaRtlOperand.register, ElnaRtlRegister.t2, 0);
	ElnaInstructionList_set_next(next_instruction^, binary_result);
	next_instruction^ := binary_result;

	return operands
end;

proc elna_rtl_copy_operand(tac_instruction: Word, number: Word, rtl_instruction: Word);
var
	operand_length: Word;
	operand_type: Word;
	operand_value: Word;
begin
	operand_type := _elna_tac_instruction_get_operand_type(tac_instruction, number);
	operand_value := _elna_tac_instruction_get_operand_value(tac_instruction, number);
	operand_length := _elna_tac_instruction_get_operand_length(tac_instruction, number);

	elna_rtl_instruction_set_operand(rtl_instruction, number, operand_type, operand_value, operand_length)
end;

proc elna_rtl_conditional_jump(tac_instruction: Word, condition: Word);
var
	result: Word;
begin
	result := elna_rtl_instruction_create(condition);
	elna_rtl_copy_operand(tac_instruction, 1, result);
	elna_rtl_copy_operand(tac_instruction, 2, result);

	return result
end;

proc elna_rtl_unary(tac_instruction: Word, rtl_operator: Word, next_instruction: Word);
var
	result: Word;
begin
	result := elna_rtl_load_operand_value(tac_instruction, 2, ElnaRtlRegister.t0);
	next_instruction^ := elna_rtl_instruction_create(rtl_operator);
	elna_rtl_copy_operand(tac_instruction, 1, result);
	elna_rtl_instruction_set_operand(result, 2, ElnaRtlOperand.register, ElnaRtlRegister.t0);
	result := ElnaInstructionList_set_next(result, next_instruction^);

	return result
end;

proc elna_rtl_instruction(tac_instruction: Word, next_instruction: Word);
var
	result: Word;
	instruction_size: Word;
	instruction_kind: Word;
	operand_type: Word;
	operand_value: Word;
	operands: Word;
	intermediate_instruction: Word;
begin
	instruction_size := elna_rtl_instruction_size();
	result := malloc(instruction_size);
	instruction_kind := _elna_tac_instruction_get_kind(tac_instruction);
	next_instruction^ := nil;

	if instruction_kind = ElnaTacOperator.get_address then
		operand_type := _elna_tac_instruction_get_operand_type(tac_instruction, 2);

		if operand_type = ElnaTacOperand.stack then
			operand_value := _elna_tac_instruction_get_operand_value(tac_instruction, 2);
			result := elna_rtl_instruction_create(ElnaRtlOperator.add);

			elna_rtl_copy_operand(tac_instruction, 1, result);
			elna_rtl_instruction_set_operand(result, 2, ElnaRtlOperand.register, ElnaRtlRegister.sp, 0);
			elna_rtl_instruction_set_operand(result, 3, ElnaRtlOperand.immediate, operand_value, 0)
		elsif operand_type = ElnaTacOperand.symbol then
			result := elna_rtl_instruction_create(ElnaRtlOperator.la);

			elna_rtl_copy_operand(tac_instruction, 1, result);
			elna_rtl_copy_operand(tac_instruction, 2, result)
		elsif operand_type = ElnaTacOperand.temporary then
			result := elna_rtl_instruction_create(ElnaRtlOperator.move);

			elna_rtl_copy_operand(tac_instruction, 1, result);
			elna_rtl_copy_operand(tac_instruction, 2, result)
		end
	elsif instruction_kind = ElnaTacOperator.add then
		result := elna_rtl_binary_arithmetic(tac_instruction, next_instruction, ElnaRtlOperator.add)
	elsif instruction_kind = ElnaTacOperator.load then
		operand_type := _elna_tac_instruction_get_operand_type(tac_instruction, 2);

		if operand_type = ElnaTacOperand.stack then
			result := elna_rtl_instruction_create(ElnaRtlOperator.lw);

			operand_value := _elna_tac_instruction_get_operand_value(tac_instruction, 1);
			next_instruction^ := elna_rtl_instruction_create(ElnaRtlOperator.lw);
			elna_rtl_instruction_set_operand(next_instruction^, 1, ElnaRtlOperand.register, operand_value, 0);
			elna_rtl_instruction_set_operand(next_instruction^, 2, ElnaRtlOperand.offset, operand_value, 0);

			operand_value := _elna_tac_instruction_get_operand_value(tac_instruction, 2);
			elna_rtl_instruction_set_operand(result, 2, ElnaRtlOperand.offset, ElnaRtlRegister.sp, operand_value);
			ElnaInstructionList_set_next(result, next_instruction^)
		elsif operand_type = ElnaTacOperand.temporary then
			result := elna_rtl_instruction_create(ElnaRtlOperator.lw);

			elna_rtl_copy_operand(tac_instruction, 1, result);
			operand_value := _elna_tac_instruction_get_operand_value(tac_instruction, 2);
			elna_rtl_instruction_set_operand(result, 2, ElnaRtlOperand.offset, operand_value, 0)
		end
	elsif instruction_kind = ElnaTacOperator.store then
		operands := elna_rtl_load_operand_value(tac_instruction, 1, ElnaRtlRegister.t0);
		next_instruction^ := elna_rtl_instruction_create(ElnaRtlOperator.sw);
		result := operands;
		operands := ElnaInstructionList_get_next(result);

		elna_rtl_instruction_set_operand(next_instruction^, 1, ElnaRtlOperand.register, ElnaRtlRegister.t0, 0);

		operand_type := _elna_tac_instruction_get_operand_type(tac_instruction, 2);
		if operand_type = ElnaTacOperand.stack then
			operand_value := _elna_tac_instruction_get_operand_value(tac_instruction, 2);
			elna_rtl_instruction_set_operand(next_instruction^, 2, ElnaRtlOperand.offset, ElnaRtlRegister.sp, operand_value)
		elsif operand_type = ElnaTacOperand.temporary then
			operand_value := _elna_tac_instruction_get_operand_value(tac_instruction, 2);
			elna_rtl_instruction_set_operand(next_instruction^, 2, ElnaRtlOperand.offset, operand_value, 0)
		end;
		if operands = 0 then
			ElnaInstructionList_set_next(result, next_instruction^)
		else
			ElnaInstructionList_set_next(operands, next_instruction^)
		end
	elsif instruction_kind = ElnaTacOperator.proc_call then
		result := elna_rtl_instruction_create(ElnaRtlOperator.jal);
		elna_rtl_copy_operand(tac_instruction, 1, result)
	elsif instruction_kind = ElnaTacOperator.subtract then
		result := elna_rtl_binary_arithmetic(tac_instruction, next_instruction, ElnaRtlOperator.sub)
	elsif instruction_kind = ElnaTacOperator.multiply then
		result := elna_rtl_binary_arithmetic(tac_instruction, next_instruction, ElnaRtlOperator.mul)
	elsif instruction_kind = ElnaTacOperator.divide then
		result := elna_rtl_binary_arithmetic(tac_instruction, next_instruction, ElnaRtlOperator.div)
	elsif instruction_kind = ElnaTacOperator.remainder then
		result := elna_rtl_binary_arithmetic(tac_instruction, next_instruction, ElnaRtlOperator.rem)
	elsif instruction_kind = ElnaTacOperator._xor then
		result := elna_rtl_binary_arithmetic(tac_instruction, next_instruction, ElnaRtlOperator._xor)
	elsif instruction_kind = ElnaTacOperator._or then
		result := elna_rtl_binary_arithmetic(tac_instruction, next_instruction, ElnaRtlOperator._or)
	elsif instruction_kind = ElnaTacOperator.and then
		result := elna_rtl_binary_arithmetic(tac_instruction, next_instruction, ElnaRtlOperator.and)
	elsif instruction_kind = ElnaTacOperator.less_than then
		result := elna_rtl_binary_arithmetic(tac_instruction, next_instruction, ElnaRtlOperator.slt)
	elsif instruction_kind = ElnaTacOperator.greater_than then
		operands := elna_rtl_binary_operands(tac_instruction, next_instruction);

		result := elna_rtl_instruction_create(ElnaRtlOperator.slt);
		elna_rtl_copy_operand(tac_instruction, 1, result);
		elna_rtl_instruction_set_operand(result, 2, ElnaRtlOperand.register, ElnaRtlRegister.t3, 0);
		elna_rtl_instruction_set_operand(result, 3, ElnaRtlOperand.register, ElnaRtlRegister.t2, 0);

		ElnaInstructionList_set_next(next_instruction^, result);
		next_instruction^ := result;

		result := operands;
		elna_rtl_instruction_set_kind(next_instruction^, ElnaRtlOperator.slt)
	elsif instruction_kind = ElnaTacOperator.less_or_equal then
		operands := elna_rtl_binary_operands(tac_instruction, next_instruction);
		intermediate_instruction := elna_rtl_instruction_create(ElnaRtlOperator.slt);

		elna_rtl_instruction_set_operand(intermediate_instruction, 1, ElnaRtlOperand.register, ElnaRtlRegister.t2, 0);
		elna_rtl_instruction_set_operand(intermediate_instruction, 2, ElnaRtlOperand.register, ElnaRtlRegister.t3, 0);
		elna_rtl_instruction_set_operand(intermediate_instruction, 3, ElnaRtlOperand.register, ElnaRtlRegister.t2, 0);
		ElnaInstructionList_set_next(next_instruction^, intermediate_instruction);
		next_instruction^ := intermediate_instruction;

		result := elna_rtl_instruction_create(ElnaRtlOperator.xori);
		elna_rtl_copy_operand(tac_instruction, 1, result);
		elna_rtl_instruction_set_operand(result, 2, ElnaRtlOperand.register, ElnaRtlRegister.t2, 0);
		elna_rtl_instruction_set_operand(result, 3, ElnaRtlOperand.immediate, 1, 0);
		ElnaInstructionList_set_next(next_instruction^, result);
		next_instruction^ := result;

		result := operands;
		elna_rtl_instruction_set_kind(next_instruction^, ElnaRtlOperator.xori)
	elsif instruction_kind = ElnaTacOperator.greater_or_equal then
		operands := elna_rtl_binary_operands(tac_instruction, next_instruction);
		intermediate_instruction := elna_rtl_instruction_create(ElnaRtlOperator.slt);

		elna_rtl_instruction_set_operand(intermediate_instruction, 1, ElnaRtlOperand.register, ElnaRtlRegister.t2, 0);
		elna_rtl_instruction_set_operand(intermediate_instruction, 2, ElnaRtlOperand.register, ElnaRtlRegister.t2, 0);
		elna_rtl_instruction_set_operand(intermediate_instruction, 3, ElnaRtlOperand.register, ElnaRtlRegister.t3, 0);
		ElnaInstructionList_set_next(next_instruction^, intermediate_instruction);
		next_instruction^ := intermediate_instruction;

		result := elna_rtl_instruction_create(ElnaRtlOperator.xori);
		elna_rtl_copy_operand(tac_instruction, 1, result);
		elna_rtl_instruction_set_operand(result, 2, ElnaRtlOperand.register, ElnaRtlRegister.t2, 0);
		elna_rtl_instruction_set_operand(result, 3, ElnaRtlOperand.immediate, 1, 0);
		ElnaInstructionList_set_next(next_instruction^, result);
		next_instruction^ := result;

		result := operands;
		elna_rtl_instruction_set_kind(next_instruction^, ElnaRtlOperator.xori)
	elsif instruction_kind = ElnaTacOperator.equal then
		result := elna_rtl_binary_equality(tac_instruction, ElnaRtlOperator.seqz, next_instruction)
	elsif instruction_kind = ElnaTacOperator.not_equal then
		result := elna_rtl_binary_equality(tac_instruction, ElnaRtlOperator.snez, next_instruction)
	elsif instruction_kind = ElnaTacOperator.negate then
		result := elna_rtl_unary(tac_instruction, ElnaRtlOperator.neg, next_instruction)
	elsif instruction_kind = ElnaTacOperator.complement then
		result := elna_rtl_unary(tac_instruction, ElnaRtlOperator.not, next_instruction)
	elsif instruction_kind = ElnaTacOperator.jump then
		result := elna_rtl_instruction_create(ElnaRtlOperator.j);
		elna_rtl_copy_operand(tac_instruction, 1, result)
	elsif instruction_kind = ElnaTacOperator.jump_if_zero then
		result := elna_rtl_conditional_jump(tac_instruction, ElnaRtlOperator.beqz)
	elsif instruction_kind = ElnaTacOperator.jump_if_not_zero then
		result := elna_rtl_conditional_jump(tac_instruction, ElnaRtlOperator.bnez)
	elsif instruction_kind = ElnaTacOperator._return then
		result := elna_rtl_load_operand_value(tac_instruction, 1, ElnaRtlRegister.a0)
	elsif instruction_kind = ElnaTacOperator.label then
		result := elna_rtl_instruction_create(ElnaRtlOperator.label);
		elna_rtl_copy_operand(tac_instruction, 1, result)
	elsif instruction_kind = ElnaTacOperator.copy then
		operand_type := _elna_tac_instruction_get_operand_type(tac_instruction, 1);
		operand_value := _elna_tac_instruction_get_operand_value(tac_instruction, 1);

		if operand_type = ElnaTacOperand.temporary then
			result := elna_rtl_load_operand_value(tac_instruction, 2, operand_value);
			next_instruction^ := ElnaInstructionList_get_next(result)
		elsif operand_type = ElnaTacOperand.stack then
			operands := elna_rtl_load_operand_value(tac_instruction, 2, ElnaRtlRegister.t4);
			result := operands;
			operands := ElnaInstructionList_get_next(result);

			next_instruction^ := elna_rtl_instruction_create(ElnaRtlOperator.sw);
			_elna_tac_instruction_set_operand(next_instruction^, 1, ElnaRtlOperand.register, ElnaRtlRegister.t4, 0);
			_elna_tac_instruction_set_operand(next_instruction^, 2, ElnaRtlOperand.offset, ElnaRtlRegister.sp, operand_value);

			if operands = 0 then
				ElnaInstructionList_set_next(result, next_instruction^)
			else
				ElnaInstructionList_set_next(operands, next_instruction^)
			end
			(* Debug. Error stream output.
			_syscall(2, name_pointer, name_length, 0, 0, 0, 64);
			printf("# here\n\0");
			fflush(0); *)
		end
	end;
	if next_instruction^ = 0 then
		next_instruction^ := result;
	end;
	return result
end;

proc elna_instruction_module_create(data: Word, code: Word);
var
	result: Word;
begin
	result := malloc(ElnaInstructionModule_size());

	ElnaInstructionModule_set_data(result, data);
	ElnaInstructionModule_set_code(result, code);

	return result
end;

proc _elna_tac_label(counter: Word, length: Word);
var
	result: Word;
begin
	result := _elna_tac_instruction_create(ElnaTacOperator.label);

	_elna_tac_instruction_set_operand(result, 1, ElnaTacOperand.symbol, counter, length);

	return result
end;

proc _elna_writer_instruction_name(instruction_kind: Word);
var
	argument_count: Word;
begin
	if instruction_kind = ElnaRtlOperator.li then
		argument_count := 2;
		_write_s("\tli", 3)
	elsif instruction_kind = ElnaRtlOperator.la then
		argument_count := 2;
		_write_s("\tla", 3)
	elsif instruction_kind = ElnaRtlOperator.add then
		argument_count := 3;
		_write_s("\tadd", 4)
	elsif instruction_kind = ElnaRtlOperator.addi then
		argument_count := 3;
		_write_s("\taddi", 5)
	elsif instruction_kind = ElnaRtlOperator.lw then
		argument_count := 2;
		_write_s("\tlw", 3)
	elsif instruction_kind = ElnaRtlOperator.sw then
		argument_count := 2;
		_write_s("\tsw", 3)
	elsif instruction_kind = ElnaRtlOperator.jal then
		argument_count := 1;
		_write_s("\tcall", 5)
	elsif instruction_kind = ElnaRtlOperator.move then
		argument_count := 2;
		_write_s("\tmv", 3)
	elsif instruction_kind = ElnaRtlOperator.sub then
		argument_count := 3;
		_write_s("\tsub", 4)
	elsif instruction_kind = ElnaRtlOperator.mul then
		argument_count := 3;
		_write_s("\tmul", 4)
	elsif instruction_kind = ElnaRtlOperator.div then
		argument_count := 3;
		_write_s("\tdiv", 4)
	elsif instruction_kind = ElnaRtlOperator.rem then
		argument_count := 3;
		_write_s("\trem", 4)
	elsif instruction_kind = ElnaRtlOperator._xor then
		argument_count := 3;
		_write_s("\txor", 4)
	elsif instruction_kind = ElnaRtlOperator.xori then
		argument_count := 3;
		_write_s("\txori", 5)
	elsif instruction_kind = ElnaRtlOperator._or then
		argument_count := 3;
		_write_s("\tor", 3)
	elsif instruction_kind = ElnaRtlOperator.and then
		argument_count := 3;
		_write_s("\tand", 4)
	elsif instruction_kind = ElnaRtlOperator.seqz then
		argument_count := 2;
		_write_s("\tseqz", 5)
	elsif instruction_kind = ElnaRtlOperator.snez then
		argument_count := 2;
		_write_s("\tsnez", 5)
	elsif instruction_kind = ElnaRtlOperator.slt then
		argument_count := 3;
		_write_s("\tslt", 4)
	elsif instruction_kind = ElnaRtlOperator.neg then
		argument_count := 2;
		_write_s("\tneg", 4)
	elsif instruction_kind = ElnaRtlOperator.not then
		argument_count := 2;
		_write_s("\tnot", 4)
	elsif instruction_kind = ElnaRtlOperator.j then
		argument_count := 1;
		_write_s("\tj", 2)
	elsif instruction_kind = ElnaRtlOperator.beqz then
		argument_count := 2;
		_write_s("\tbeqz", 5)
	elsif instruction_kind = ElnaRtlOperator.bnez then
		argument_count := 2;
		_write_s("\tbnez", 5)
	else (* ElnaRtlOperator.allocate_stack or ElnaRtlOperator.ret *)
		argument_count := 0
	end;
	return argument_count
end;

proc _elna_writer_register(register: Word);
begin
	_write_c('x');
	_write_i(register - 1)
end;

proc _elna_writer_operand(instruction: Word, n: Word);
var
	operand_value: Word;
	operand_length: Word;
	operand_type: Word;
begin
	operand_type := elna_rtl_instruction_get_operand_type(instruction, n);
	operand_value := elna_rtl_instruction_get_operand_value(instruction, n);
	operand_length := elna_rtl_instruction_get_operand_length(instruction, n);

	_write_c(' ');
	if operand_type = ElnaRtlOperand.register then
		_elna_writer_register(operand_value)
	elsif operand_type = ElnaRtlOperand.offset then
		_write_i(operand_length);
		_write_c('(');
		_elna_writer_register(operand_value);
		_write_c(')')
	elsif operand_type = ElnaRtlOperand.symbol then
		if operand_length = 0 then
			_write_label(operand_value, 0)
		else
			_write_s(operand_value, operand_length)
		end
	elsif operand_length = 0 then (* ElnaRtlOperand.immediate *)
		_write_i(operand_value)
	else
		_write_s(operand_value, operand_length)
	end
end;

proc _elna_writer_instruction(instruction: Word);
var
	instruction_kind: Word;
	argument_count: Word;
	current_argument: Word;
	operand_value: Word;
	operand_length: Word;
begin
	instruction_kind := elna_rtl_instruction_get_kind(instruction);

	if instruction_kind = ElnaRtlOperator.label then
		argument_count := 0;
		operand_value := elna_rtl_instruction_get_operand_value(instruction, 1);
		operand_length := elna_rtl_instruction_get_operand_length(instruction, 1);
		_write_label(operand_value, operand_length);
		_write_c(':')
	else
		argument_count := _elna_writer_instruction_name(instruction_kind)
	end;
	current_argument := 1;

	.elna_writer_instruction_loop;
	if current_argument <= argument_count then
		_elna_writer_operand(instruction, current_argument);
		current_argument := current_argument + 1
	end;
	if current_argument <= argument_count then
		_write_c(',');
		goto elna_writer_instruction_loop
	end;

	_write_c('\n')
end;

proc elna_rtl_instructions(instruction: Word);
var
	current_copy: Word;
	next_copy: Word;
	first_copy: Word;
	last_copy: Word;
begin
	if instruction <> 0 then
		first_copy := elna_rtl_instruction(instruction, @current_copy);
		instruction := ElnaInstructionList_get_next(instruction)
	else
		first_copy := 0;
		current_copy := 0
	end;
	.elna_rtl_instructions_start;

	if instruction <> 0 then
		next_copy := elna_rtl_instruction(instruction, @last_copy);

		instruction := ElnaInstructionList_get_next(instruction);
		ElnaInstructionList_set_next(current_copy, next_copy);
		current_copy := last_copy;
		goto elna_rtl_instructions_start
	end;

	return first_copy
end;

proc _elna_writer_instructions(instruction: Word);
begin
	.elna_writer_instructions_start;
	if instruction <> 0 then
		_elna_writer_instruction(instruction);
		instruction := ElnaInstructionList_get_next(instruction);
		goto elna_writer_instructions_start
	end
end;

proc _elna_writer_procedure(procedure: Word);
var
	name_pointer: Word;
	name_length: Word;
	body_statements: Word;
	has_stack: Word;
begin
	.elna_writer_procedure_loop;
	name_pointer := ElnaInstructionDeclaration_get_name(procedure);
	name_length := ElnaInstructionDeclaration_get_length(procedure);
	body_statements := ElnaInstructionDeclaration_get_body(procedure);
	has_stack := ElnaInstructionDeclaration_get_stack(procedure);

	(* Write .type _procedure_name, @function. *)
	_write_z(".type \0");

	_write_s(name_pointer, name_length);
	_write_z(", @function\n\0");

	(* Write procedure label, _procedure_name: *)
	_write_s(name_pointer, name_length);
	_write_z(":\n\0");

	(* Write the prologue. *)
	if has_stack then
		_write_z("\taddi sp, sp, -144\n\tsw ra, 140(sp)\n\tsw s0, 136(sp)\n\taddi s0, sp, 144\n\0")
	end;
	_elna_writer_instructions(body_statements);
	(* Write the epilogue. *)
	if has_stack then
		_write_z("\tlw ra, 140(sp)\n\tlw s0, 136(sp)\n\taddi sp, sp, 144\n\0")
	end;
	_write_z("\tret\n\0");

	procedure := ElnaInstructionList_get_next(procedure);
	if procedure <> 0 then
		goto elna_writer_procedure_loop
	end
end;

proc _elna_writer_variable(variable: Word);
var
	name: Word;
	name_length: Word;
	size: Word;
begin
	.elna_writer_variable_loop;
	if variable <> 0 then
		name := ElnaInstructionDeclaration_get_name(variable);
		name_length := ElnaInstructionDeclaration_get_length(variable);
		size := ElnaInstructionDeclaration_get_body(variable);

		_write_z(".type \0");
		_write_s(name, name_length);
		_write_z(", @object\n\0");

		_write_s(name, name_length);
		_write_c(':');

		_write_z(" .zero \0");
		_write_i(size);

		_write_c('\n');
		variable := ElnaInstructionList_get_next(variable);

		goto elna_writer_variable_loop
	end
end;

proc elna_rtl_module_declaration(tac_module: Word);
var
	code_part: Word;
	data_part: Word;
	current_part: Word;
begin
	current_part := ElnaInstructionModule_get_data(tac_module);
	data_part := elna_rtl_globals(current_part);

	current_part := ElnaInstructionModule_get_code(tac_module);
	code_part := elna_rtl_procedures(current_part);

	return elna_instruction_module_create(data_part, code_part)
end;

proc _elna_writer_module(pair: Word);
var
	compiler_strings_copy: Word;
	compiler_strings_end: Word;
	current_byte: Word;
	current_part: Word;
begin
	_write_z(".globl main\n\n\0");
	_write_z(".section .data\n\0");

	current_part := ElnaInstructionModule_get_data(pair);
	_elna_writer_variable(current_part);

	_write_z(".section .text\n\n\0");
	_write_z(".type _syscall, @function\n_syscall:\n\tmv a7, a6\n\tecall\n\tret\n\n\0");
	_write_z(".type _load_byte, @function\n_load_byte:\n\tlb a0, (a0)\nret\n\n\0");
	_write_z(".type _store_byte, @function\n_store_byte:\n\tsb a0, (a1)\nret\n\n\0");

	current_part := ElnaInstructionModule_get_code(pair);
	_elna_writer_procedure(current_part);

	_write_z(".section .rodata\n.type strings, @object\nstrings: .ascii \0");
	_write_c('"');

	compiler_strings_copy := @compiler_strings;
	compiler_strings_end := compiler_strings_position;

	.elna_writer_module_loop;
	if compiler_strings_copy < compiler_strings_end then
		current_byte := _load_byte(compiler_strings_copy);
		compiler_strings_copy := compiler_strings_copy + 1;
		_write_c(current_byte);

		goto elna_writer_module_loop
	end;
	_write_c('"');
	_write_c('\n');
end;

proc _elna_parser_integer_literal();
var
	integer_token: Word;
	integer_length: Word;
	result: Word;
begin
	result := malloc(_integer_literal_node_size());

	integer_token := _elna_lexer_global_get_start();
	integer_length := _elna_lexer_global_get_end();
	integer_length := integer_length -  integer_token;
	_elna_lexer_skip_token();

	_node_set_kind(result, NodeKind.integer_literal);
	_integer_literal_node_set_value(result, integer_token);
	_integer_literal_node_set_length(result, integer_length);

	return result
end;

proc _elna_parser_nil();
var
	result: Word;
begin
	_elna_lexer_skip_token();

	result := malloc(_nil_node_size());
	_nil_node_set_kind(result, NodeKind.null);

	return result
end;

proc _elna_tac_integer_literal(integer_literal_node: Word, operand_type: Word, operand_value: Word, operand_length: Word);
begin
	operand_type^ := ElnaTacOperand.immediate;
	operand_value^ := _integer_literal_node_get_value(integer_literal_node);
	operand_length^ := _integer_literal_node_get_length(integer_literal_node);

	return 0
end;

proc _elna_tac_nil(nil_node: Word, operand_type: Word, operand_value: Word, operand_length: Word);
begin
	operand_type^ := ElnaTacOperand.immediate;
	operand_value^ := 0;
	operand_length^ := 0;

	return 0
end;

proc _elna_parser_character_literal();
var
	character: Word;
	character_length: Word;
	result: Word;
begin
	result := malloc(_character_literal_node_size());

	character := _elna_lexer_global_get_start();
	character_length := _elna_lexer_global_get_end();
	character_length := character_length - character;
	_elna_lexer_skip_token();

	_node_set_kind(result, NodeKind.character_literal);
	_integer_literal_node_set_value(result, character);
	_integer_literal_node_set_length(result, character_length);

	return result
end;

proc _elna_tac_character_literal(character_literal_node: Word, operand_type: Word, operand_value: Word, operand_length: Word);
begin
	operand_type^ := ElnaTacOperand.immediate;
	operand_value^ :=_character_literal_node_get_value(character_literal_node);
	operand_length^ := _character_literal_node_get_length(character_literal_node);

	return 0
end;

proc _elna_parser_variable_expression();
var
	name: Word;
	name_token: Word;
	result: Word;
begin
	name := _elna_lexer_global_get_start();
	name_token := _elna_lexer_global_get_end();
	name_token := name_token - name;
	_elna_lexer_skip_token();

	result := malloc(_variable_expression_size());

	_node_set_kind(result, NodeKind.variable_expression);
	_variable_expression_set_name(result, name);
	_variable_expression_set_length(result, name_token);

	return result
end;

proc _elna_tac_variable_expression(variable_expression: Word, symbol_table: Word, operand_type: Word, operand_value: Word, operand_length: Word);
var
	name_pointer: Word;
	name_length: Word;
	lookup_result: Word;
begin
	name_pointer := _variable_expression_get_name(variable_expression);
	name_length := _variable_expression_get_length(variable_expression);

	lookup_result := _symbol_table_lookup(symbol_table, name_pointer, name_length);
	if lookup_result <> 0 then
		operand_type^ := ElnaTacOperand.stack;
		operand_value^ := _parameter_info_get_offset(lookup_result);
		operand_length^ := 0
	else
		operand_type^ := ElnaTacOperand.symbol;
		operand_value^ := name_pointer;
		operand_length^ := name_length
	end;
	return 0
end;

proc _elna_parser_string_literal();
var
	length: Word;
	token_start: Word;
	result: Word;
begin
	result := malloc(_string_literal_node_size());

	token_start := _elna_lexer_global_get_start();
	length := _string_length(token_start);
	_elna_lexer_skip_token();

	_node_set_kind(result, NodeKind.string_literal);
	_string_literal_node_set_value(result, token_start);
	_string_literal_node_set_length(result, length);

	return result
end;

proc _elna_tac_string_literal(string_literal_node: Word, operand_type: Word, operand_value: Word, operand_length: Word);
var
	token_start: Word;
	offset: Word;
	first_instruction: Word;
	next_instruction: Word;
begin
	token_start := _string_literal_node_get_value(string_literal_node);
	offset := _add_string(token_start);

	first_instruction := _elna_tac_instruction_create(ElnaTacOperator.get_address);
	_elna_tac_instruction_set_operand(first_instruction, 1, ElnaTacOperand.temporary, 6, 0);
	_elna_tac_instruction_set_operand(first_instruction, 2, ElnaTacOperand.symbol, "strings", 7);

	(* Add offset to the string block pointer. *)
	next_instruction := _elna_tac_instruction_create(ElnaTacOperator.add);
	_elna_tac_instruction_set_operand(next_instruction, 1, ElnaTacOperand.temporary, 6, 0);
	_elna_tac_instruction_set_operand(next_instruction, 2, ElnaTacOperand.temporary, 6, 0);
	_elna_tac_instruction_set_operand(next_instruction, 3, ElnaTacOperand.immediate, offset, 0);

	operand_type^ := ElnaTacOperand.temporary;
	operand_value^ := 6;
	operand_length^ := 0;

	return elna_instruction_list_concatenate(first_instruction, next_instruction)
end;

proc _elna_parser_simple_expression();
var
	current_character: Word;
	parser_node: Word;
	token_kind: Word;
begin
	parser_node := 0;
	_elna_lexer_read_token(@token_kind);

	if token_kind = ElnaLexerKind.character then
		parser_node := _elna_parser_character_literal()
	elsif token_kind = ElnaLexerKind.integer then
		parser_node := _elna_parser_integer_literal()
	elsif token_kind = ElnaLexerKind.string then
		parser_node := _elna_parser_string_literal()
	elsif token_kind = ElnaLexerKind.null then
		parser_node := _elna_parser_nil()
	elsif token_kind = ElnaLexerKind.identifier then
		parser_node := _elna_parser_variable_expression()
	end;
	return parser_node
end;

proc _elna_parser_dereference_expression(simple_expression: Word);
var
	result: Word;
begin
	result := malloc(_dereference_expression_size());

	_node_set_kind(result, NodeKind.dereference_expression);
	_dereference_expression_set_pointer(result, simple_expression);
	_elna_lexer_skip_token();

	return result
end;

proc _elna_parser_designator();
var
	simple_expression: Word;
	token_kind: Word;
begin
	simple_expression := _elna_parser_simple_expression();

	_elna_lexer_read_token(@token_kind);

	if token_kind = ElnaLexerKind.hat then
		simple_expression := _elna_parser_dereference_expression(simple_expression)
	elsif token_kind = ElnaLexerKind.dot then
		simple_expression := _elna_parser_field_access_expression(simple_expression)
	elsif token_kind = ElnaLexerKind.left_paren then
		simple_expression := _elna_parser_call(simple_expression)
	end;
	return simple_expression
end;

proc _elna_tac_simple_expression(parser_node: Word, symbol_table: Word, operand_type: Word, operand_value: Word, operand_length: Word);
var
	node_kind: Word;
	instruction: Word;
begin
	node_kind := _node_get_kind(parser_node);

	if node_kind = NodeKind.character_literal then
		instruction := _elna_tac_character_literal(parser_node, operand_type, operand_value, operand_length)
	elsif node_kind = NodeKind.string_literal then
		instruction := _elna_tac_string_literal(parser_node, operand_type, operand_value, operand_length)
	elsif node_kind = NodeKind.integer_literal then
		instruction := _elna_tac_integer_literal(parser_node, operand_type, operand_value, operand_length)
	elsif node_kind = NodeKind.null then
		instruction := _elna_tac_nil(parser_node, operand_type, operand_value, operand_length)
	else
		instruction := _elna_tac_variable_expression(parser_node, symbol_table, operand_type, operand_value, operand_length)
	end;
	return instruction
end;

proc _elna_parser_unary_expression();
var
	token_kind: Word;
	result: Word;
	operand: Word;
	operator: Word;
begin
	_elna_lexer_read_token(@token_kind);
	operator := 0;

	if token_kind = ElnaLexerKind.at then
		operator := '@'
	elsif token_kind = ElnaLexerKind.minus then
		operator := '-'
	elsif token_kind = ElnaLexerKind.not then
		operator := '~'
	end;
	if operator <> 0 then
		_elna_lexer_skip_token()
	end;
	result := _elna_parser_designator();

	if operator <> 0 then
		operand := result;
		result := malloc(_unary_expression_size());

		_node_set_kind(result, NodeKind.unary_expression);
		_unary_expression_set_operand(result, operand);
		_unary_expression_set_operator(result, operator)
	end;

	return result
end;

proc _elna_tac_unary_expression(parser_node: Word, symbol_table: Word, operand_type: Word, operand_value: Word, operand_length: Word);
var
	current_character: Word;
	token_kind: Word;
	expression_kind: Word;
	operator: Word;
	operand: Word;
	is_address: Word;
	first_instruction: Word;
	instruction: Word;
	temp: Word;
begin
	operator := 0;
	operand := 0;

	expression_kind := _node_get_kind(parser_node);

	if expression_kind = NodeKind.unary_expression then
		operator := _unary_expression_get_operator(parser_node);
		operand := _unary_expression_get_operand(parser_node)
	else
		operand := parser_node
	end;

	if operator = '@' then
		first_instruction := _elna_tac_designator(operand, symbol_table, @is_address, operand_type, operand_value, operand_length);

		instruction := _elna_tac_instruction_create(ElnaTacOperator.get_address);
		_elna_tac_instruction_set_operand(instruction, 1, ElnaTacOperand.temporary, 6, 0);
		_elna_tac_instruction_set_operand(instruction, 2, operand_type^, operand_value^, operand_length^);

		operand_type^ := ElnaTacOperand.temporary;
		operand_value^ := 6;
		operand_length^ := 0;

		first_instruction := elna_instruction_list_concatenate(first_instruction, instruction)
	else
		current_character := operand_type^;
		first_instruction := _elna_tac_designator(operand, symbol_table, @is_address, operand_type, operand_value, operand_length);
		operand := operand_type^;

		if is_address then
			instruction := _elna_tac_instruction_create(ElnaTacOperator.load);
			_elna_tac_instruction_set_operand(instruction, 1, ElnaTacOperand.temporary, 6, 0);
			_elna_tac_instruction_set_operand(instruction, 2, operand_type^, operand_value^, operand_length^);

			operand_type^ := ElnaTacOperand.temporary;
			operand_value^ := 6;
			operand_length^ := 0;

			elna_instruction_list_concatenate(first_instruction, instruction)
		elsif operator = 0 then
			instruction := _elna_tac_instruction_create(ElnaTacOperator.copy);
			_elna_tac_instruction_set_operand(instruction, 1, ElnaTacOperand.temporary, 6, 0);
			_elna_tac_instruction_set_operand(instruction, 2, operand_type^, operand_value^, operand_length^);

			operand_type^ := ElnaTacOperand.temporary;
			operand_value^ := 6;
			operand_length^ := 0;

			first_instruction := elna_instruction_list_concatenate(first_instruction, instruction)
		end
	end;
	if operator = '-' then
		instruction := _elna_tac_instruction_create(ElnaTacOperator.negate);
		_elna_tac_instruction_set_operand(instruction, 1, ElnaTacOperand.temporary, 6, 0);
		_elna_tac_instruction_set_operand(instruction, 2, operand_type^, operand_value^, operand_length^);
		elna_instruction_list_concatenate(first_instruction, instruction)
	elsif operator = '~' then
		instruction := _elna_tac_instruction_create(ElnaTacOperator.complement);
		_elna_tac_instruction_set_operand(instruction, 1, ElnaTacOperand.temporary, 6, 0);
		_elna_tac_instruction_set_operand(instruction, 2, operand_type^, operand_value^, operand_length^);
		elna_instruction_list_concatenate(first_instruction, instruction)
	end;
	return first_instruction
end;

proc _elna_parser_binary_expression();
var
	lhs_node: Word;
	rhs_node: Word;
	token_kind: Word;
	result: Word;
begin
	lhs_node := _elna_parser_unary_expression();
	rhs_node := 0;
	_elna_lexer_read_token(@token_kind);

	if token_kind = ElnaLexerKind.plus then
		_elna_lexer_skip_token();
		rhs_node := _elna_parser_unary_expression()
	elsif token_kind = ElnaLexerKind.minus then
		_elna_lexer_skip_token();
		rhs_node := _elna_parser_unary_expression()
	elsif token_kind = ElnaLexerKind.multiplication then
		_elna_lexer_skip_token();
		rhs_node := _elna_parser_unary_expression()
	elsif token_kind = ElnaLexerKind.and then
		_elna_lexer_skip_token();
		rhs_node := _elna_parser_unary_expression()
	elsif token_kind = ElnaLexerKind._or then
		_elna_lexer_skip_token();
		rhs_node := _elna_parser_unary_expression()
	elsif token_kind = ElnaLexerKind._xor then
		_elna_lexer_skip_token();
		rhs_node := _elna_parser_unary_expression()
	elsif token_kind = ElnaLexerKind.equals then
		_elna_lexer_skip_token();
		rhs_node := _elna_parser_unary_expression()
	elsif token_kind = ElnaLexerKind.remainder then
		_elna_lexer_skip_token();
		rhs_node := _elna_parser_unary_expression()
	elsif token_kind = ElnaLexerKind.division then
		_elna_lexer_skip_token();
		rhs_node := _elna_parser_unary_expression()
	elsif token_kind = ElnaLexerKind.less_than then
		_elna_lexer_skip_token();
		rhs_node := _elna_parser_unary_expression()
	elsif token_kind = ElnaLexerKind.greater_than then
		_elna_lexer_skip_token();
		rhs_node := _elna_parser_unary_expression()
	elsif token_kind = ElnaLexerKind.less_equal then
		_elna_lexer_skip_token();
		rhs_node := _elna_parser_unary_expression()
	elsif token_kind = ElnaLexerKind.not_equal then
		_elna_lexer_skip_token();
		rhs_node := _elna_parser_unary_expression()
	elsif token_kind = ElnaLexerKind.greater_equal then
		_elna_lexer_skip_token();
		rhs_node := _elna_parser_unary_expression()
	end;
	if rhs_node <> 0 then
		result := malloc(_binary_expression_size());

		_node_set_kind(result, NodeKind.binary_expression);
		_binary_expression_set_lhs(result, lhs_node);
		_binary_expression_set_rhs(result, rhs_node);
		_binary_expression_set_operator(result, token_kind)
	else
		result := lhs_node
	end;
	return result
end;

proc _elna_tac_binary_expression(parser_node: Word, symbol_table: Word, operand_type: Word, operand_value: Word, operand_length: Word);
var
	token_kind: Word;
	expression_kind: Word;
	operand_node: Word;
	first_instruction: Word;
	instruction: Word;
	current_instruction: Word;
	lhs_type: Word;
	lhs_value: Word;
	lhs_length: Word;
begin
	expression_kind := _node_get_kind(parser_node);

	if expression_kind <> NodeKind.binary_expression then
		first_instruction := _elna_tac_unary_expression(parser_node, symbol_table, operand_type, operand_value, operand_length)
	else
		token_kind := _binary_expression_get_operator(parser_node);

		operand_node := _binary_expression_get_lhs(parser_node);
		lhs_type := 0;
		lhs_value := 0;
		lhs_length := 0;
		first_instruction := _elna_tac_unary_expression(operand_node, symbol_table, @lhs_type, @lhs_value, @lhs_length);

		(* Save the value of the left expression on the stack. *)
		instruction := _elna_tac_instruction_create(ElnaTacOperator.copy);
		_elna_tac_instruction_set_operand(instruction, 1, ElnaTacOperand.stack, 72, 0);
		_elna_tac_instruction_set_operand(instruction, 2, lhs_type, lhs_value, lhs_length);

		if first_instruction = 0 then
			first_instruction := instruction
		else
			elna_instruction_list_concatenate(first_instruction, instruction)
		end;
		current_instruction := instruction;

		operand_node := _binary_expression_get_rhs(parser_node);
		lhs_type := 0;
		lhs_value := 0;
		lhs_length := 0;
		instruction := _elna_tac_unary_expression(operand_node, symbol_table, @lhs_type, @lhs_value, @lhs_length);

		current_instruction := elna_instruction_list_concatenate(current_instruction, instruction);

		(* Load the left expression from the stack; *)
		instruction := _elna_tac_instruction_create(ElnaTacOperator.copy);
		_elna_tac_instruction_set_operand(instruction, 1, ElnaTacOperand.temporary, 7, 0);
		_elna_tac_instruction_set_operand(instruction, 2, ElnaTacOperand.stack, 72, 0);

		elna_instruction_list_concatenate(current_instruction, instruction);
		current_instruction := instruction;

		if token_kind = ElnaLexerKind.plus then
			instruction := _elna_tac_instruction_create(ElnaTacOperator.add)
		elsif token_kind = ElnaLexerKind.minus then
			instruction := _elna_tac_instruction_create(ElnaTacOperator.subtract)
		elsif token_kind = ElnaLexerKind.multiplication then
			instruction := _elna_tac_instruction_create(ElnaTacOperator.multiply)
		elsif token_kind = ElnaLexerKind.and then
			instruction := _elna_tac_instruction_create(ElnaTacOperator.and)
		elsif token_kind = ElnaLexerKind._or then
			instruction := _elna_tac_instruction_create(ElnaTacOperator._or)
		elsif token_kind = ElnaLexerKind._xor then
			instruction := _elna_tac_instruction_create(ElnaTacOperator._xor)
		elsif token_kind = ElnaLexerKind.equals then
			instruction := _elna_tac_instruction_create(ElnaTacOperator.equal)
		elsif token_kind = ElnaLexerKind.remainder then
			instruction := _elna_tac_instruction_create(ElnaTacOperator.remainder)
		elsif token_kind = ElnaLexerKind.division then
			instruction := _elna_tac_instruction_create(ElnaTacOperator.divide)
		elsif token_kind = ElnaLexerKind.less_than then
			instruction := _elna_tac_instruction_create(ElnaTacOperator.less_than)
		elsif token_kind = ElnaLexerKind.greater_than then
			instruction := _elna_tac_instruction_create(ElnaTacOperator.greater_than)
		elsif token_kind = ElnaLexerKind.less_equal then
			instruction := _elna_tac_instruction_create(ElnaTacOperator.less_or_equal)
		elsif token_kind = ElnaLexerKind.greater_equal then
			instruction := _elna_tac_instruction_create(ElnaTacOperator.greater_or_equal)
		elsif token_kind = ElnaLexerKind.not_equal then
			instruction := _elna_tac_instruction_create(ElnaTacOperator.not_equal)
		end;
		_elna_tac_instruction_set_operand(instruction, 1, ElnaTacOperand.temporary, 6, 0);
		_elna_tac_instruction_set_operand(instruction, 2, ElnaTacOperand.stack, 72, 0);
		_elna_tac_instruction_set_operand(instruction, 3, lhs_type, lhs_value, lhs_length);

		elna_instruction_list_concatenate(current_instruction, instruction);

		operand_type^ := ElnaTacOperand.temporary;
		operand_value^ := 6;
		operand_length^ := 0
	end;
	return first_instruction
end;

(* 4 bytes node kind + 4 byte pointer to variable expression + 4 * 7 for arguments. *)
proc _call_size();
	return 44
end;

proc _call_get_name(this: Word);
begin
	this := this + 8;
	return this^
end;

proc _call_set_name(this: Word, value: Word);
begin
	this := this + 8;
	this^ := value
end;

proc _call_get_argument(this: Word, n: Word);
begin
	n := n * 4;
	this := this + 8;
	this := this + n;
	return this^
end;

proc _call_set_argument(this: Word, n: Word, value: Word);
begin
	n := n * 4;
	this := this + 8;
	this := this + n;
	this^ := value
end;

proc _elna_parser_call(callee: Word);
var
	parsed_expression: Word;
	result: Word;
	argument_number: Word;
	token_kind: Word;
begin
	result := malloc(_call_size());
	_node_set_kind(result, NodeKind.call);
	_statement_set_next(result, 0);

	argument_number := 1;
	_call_set_name(result, callee);

	_elna_lexer_read_token(@token_kind);
	_elna_lexer_skip_token();
	_elna_lexer_read_token(@token_kind);

	if token_kind = ElnaLexerKind.right_paren then
		_elna_lexer_skip_token();
		goto elna_parser_call_end
	end;

	.elna_parser_call_loop;
	parsed_expression := _elna_parser_binary_expression();
	_call_set_argument(result, argument_number, parsed_expression);
	argument_number := argument_number + 1;
	_elna_lexer_read_token(@token_kind);
	_elna_lexer_skip_token();

	if token_kind = ElnaLexerKind.comma then
		goto elna_parser_call_loop
	end;

	.elna_parser_call_end;
	(* Set the trailing argument to nil. *)
	_call_set_argument(result, argument_number, 0);

	return result
end;

proc _elna_tac_call(parsed_call: Word, symbol_table: Word);
var
	name_length: Word;
	name: Word;
	argument_count: Word;
	stack_offset: Word;
	parsed_expression: Word;
	instruction: Word;
	first_instruction: Word;
	current_instruction: Word;
	operand_type: Word;
	operand_value: Word;
	operand_length: Word;
begin
	parsed_expression := _call_get_name(parsed_call);
	name := _variable_expression_get_name(parsed_expression);
	name_length := _variable_expression_get_length(parsed_expression);
	argument_count := 0;
	first_instruction := 0;

	.elna_tac_call_loop;

	parsed_expression := _call_get_argument(parsed_call, argument_count + 1);
	if parsed_expression = 0 then
		goto elna_tac_call_finalize
	else
		operand_type := 0;
		operand_value := 0;
		operand_length := 0;
		instruction := _elna_tac_binary_expression(parsed_expression, symbol_table, @operand_type, @operand_value, @operand_length);
		if first_instruction = 0 then
			first_instruction := instruction
		else
			elna_instruction_list_concatenate(current_instruction, instruction)
		end;
		if instruction <> 0 then
			current_instruction := instruction
		end;

		(* Save the argument on the stack. *)
		stack_offset := argument_count * 4;

		instruction := _elna_tac_instruction_create(ElnaTacOperator.store);
		_elna_tac_instruction_set_operand(instruction, 1, operand_type, operand_value, operand_length);
		_elna_tac_instruction_set_operand(instruction, 2, ElnaTacOperand.stack, 132 - stack_offset, 0);
		if first_instruction = 0 then
			first_instruction := instruction
		else
			elna_instruction_list_concatenate(current_instruction, instruction)
		end;
		current_instruction := instruction;

		argument_count := argument_count + 1;
		goto elna_tac_call_loop
	end;
	.elna_tac_call_finalize;

	(* Load the argument from the stack. *)
	if argument_count <> 0 then
		(* Decrement the argument counter. *)
		argument_count := argument_count - 1;
		stack_offset := argument_count * 4;

		(* Calculate the stack offset: 132 - (4 * argument_counter) *)
		instruction := _elna_tac_instruction_create(ElnaTacOperator.copy);
		_elna_tac_instruction_set_operand(instruction, 1, ElnaTacOperand.temporary, 11 + argument_count, 0);
		_elna_tac_instruction_set_operand(instruction, 2, ElnaTacOperand.stack, 132 - stack_offset, 0);
		elna_instruction_list_concatenate(current_instruction, instruction);
		current_instruction := instruction;

		goto elna_tac_call_finalize
	end;
	instruction := _elna_tac_instruction_create(ElnaTacOperator.proc_call);
	_elna_tac_instruction_set_operand(instruction, 1, ElnaTacOperand.symbol, name, name_length);
	if first_instruction = 0 then
		first_instruction := instruction
	else
		elna_instruction_list_concatenate(current_instruction, instruction)
	end;
	return first_instruction
end;

proc _elna_parser_goto_statement();
var
	token_kind: Word;
	label_name: Word;
	label_length: Word;
	result: Word;
begin
	_elna_lexer_skip_token();
	_elna_lexer_read_token(@token_kind);

	label_name := _elna_lexer_global_get_start();
	label_length := _elna_lexer_global_get_end() - label_name;
	_elna_lexer_skip_token();

	result := malloc(_goto_statement_size());

	_node_set_kind(result, NodeKind.goto_statement);
	_statement_set_next(result, 0);
	_goto_statement_set_label(result, label_name);
	_goto_statement_set_length(result, label_length);

	return result
end;

proc _elna_tac_goto_statement(parser_node: Word);
var
	label_name: Word;
	label_length: Word;
	label_with_dot: Word;
	instruction: Word;
begin
	label_name := _goto_statement_get_label(parser_node);
	label_length := _goto_statement_get_length(parser_node);
	label_with_dot := malloc(label_length + 1);

	_store_byte('.', label_with_dot);
	memcpy(label_with_dot + 1, label_name, label_length);

	instruction := _elna_tac_instruction_create(ElnaTacOperator.jump);
	_elna_tac_instruction_set_operand(instruction, 1, ElnaTacOperand.symbol, label_with_dot, label_length + 1);
	return instruction
end;

proc _elna_parser_label_declaration();
var
	token_kind: Word;
	label_name: Word;
	label_length: Word;
	result: Word;
begin
	_elna_lexer_skip_token();
	_elna_lexer_read_token(@token_kind);

	label_name := _elna_lexer_global_get_start();
	label_length := _elna_lexer_global_get_end() - label_name;
	_elna_lexer_skip_token();

	result := malloc(_label_declaration_size());

	_node_set_kind(result, NodeKind.label_declaration);
	_statement_set_next(result, 0);
	_goto_statement_set_label(result, label_name);
	_goto_statement_set_length(result, label_length);

	return result
end;

proc _elna_tac_label_declaration(parser_node: Word);
var
	label_name: Word;
	label_length: Word;
begin
	label_name := _label_declaration_get_label(parser_node);
	label_length := _label_declaration_get_length(parser_node);

	return _elna_tac_label(label_name, label_length)
end;

proc _elna_tac_enumeration_value(field_access_expression: Word, operand_type: Word, operand_value: Word, operand_length: Word);
var
	enumeration_type: Word;
	members: Word;
	members_length: Word;
	token_type: Word;
	value_name: Word;
	name_length: Word;
	member_name: Word;
	member_length: Word;
	counter: Word;
	symbol: Word;
begin
	symbol := _field_access_expression_get_aggregate(field_access_expression);
	value_name := _variable_expression_get_name(symbol);
	name_length := _variable_expression_get_length(symbol);

	symbol := _symbol_table_lookup(@symbol_table_global, value_name, name_length);

	enumeration_type := _type_info_get__type(symbol);
	members := _enumeration_type_get_members(enumeration_type);
	members_length := _enumeration_type_get_length(enumeration_type);

	_elna_lexer_read_token(@token_type);

	value_name := _field_access_expression_get_field(field_access_expression);
	name_length := _field_access_expression_get_length(field_access_expression);
	counter := 1;

	.elna_tac_enumeration_value_members;
	if members_length > 0 then
		member_name := members^;
		member_length := members + 4;
		member_length := member_length^;

		if string_compare(value_name, name_length, member_name, member_length) = 0 then
			members_length := members_length - 1;
			members := members + 8;
			counter := counter + 1;
			goto elna_tac_enumeration_value_members
		end;
		(* Found. *)
		operand_type^ := ElnaTacOperand.immediate;
		operand_value^ := counter;
		operand_length^ := 0
	end;
	return 0
end;

proc _elna_parser_field_access_expression(aggregate: Word);
var
	token_kind: Word;
	name: Word;
	name_token: Word;
	result: Word;
begin
	(* Skip dot. Read the enumeration value. *)
	_elna_lexer_skip_token();
	_elna_lexer_read_token(@token_kind);

	name := _elna_lexer_global_get_start();
	name_token := _elna_lexer_global_get_end();
	name_token := name_token - name;

	_elna_lexer_skip_token();
	result := malloc(_field_access_expression_size());

	_node_set_kind(result, NodeKind.field_access_expression);
	_field_access_expression_set_aggregate(result, aggregate);
	_field_access_expression_set_field(result, name);
	_field_access_expression_set_length(result, name_token);

	return result
end;

proc _elna_tac_designator(parser_node: Word, symbol_table: Word, is_address: Word, operand_type: Word, operand_value: Word, operand_length: Word);
var
	parser_node: Word;
	node_kind: Word;
	first_instruction: Word;
	last_instruction: Word;
begin
	node_kind := _node_get_kind(parser_node);

	if node_kind = NodeKind.dereference_expression then
		parser_node := _dereference_expression_get_pointer(parser_node);
		first_instruction := _elna_tac_simple_expression(parser_node, symbol_table, operand_type, operand_value, operand_length);

		last_instruction := _elna_tac_instruction_create(ElnaTacOperator.copy);
		_elna_tac_instruction_set_operand(last_instruction, 1, ElnaTacOperand.temporary, 6, 0);
		_elna_tac_instruction_set_operand(last_instruction, 2, operand_type^, operand_value^, operand_length^);

		operand_type^ := ElnaTacOperand.temporary;
		operand_value^ := 6;
		operand_length^ := 0;

		is_address^ := 2;
		first_instruction := elna_instruction_list_concatenate(first_instruction, last_instruction)
	elsif node_kind = NodeKind.field_access_expression then
		first_instruction := _elna_tac_enumeration_value(parser_node, operand_type, operand_value, operand_length);
		is_address^ := 0
	elsif node_kind = NodeKind.call then
		first_instruction := _elna_tac_call(parser_node, symbol_table);

		last_instruction := _elna_tac_instruction_create(ElnaTacOperator.copy);
		_elna_tac_instruction_set_operand(last_instruction, 1, ElnaTacOperand.temporary, 6, 0);
		_elna_tac_instruction_set_operand(last_instruction, 2, ElnaTacOperand.temporary, 11, 0);

		operand_type^ := ElnaTacOperand.temporary;
		operand_value^ := 6;
		operand_length^ := 0;

		elna_instruction_list_concatenate(first_instruction, last_instruction);
		is_address^ := 0
	else
		first_instruction := _elna_tac_simple_expression(parser_node, symbol_table, operand_type, operand_value, operand_length);
		is_address^ := 0
	end;
	return first_instruction
end;

proc _elna_parser_assign_statement(assignee: Word);
var
	result: Word;
	token_kind: Word;
	assignment_node: Word;
begin
	result := malloc(_assign_statement_size());

	_node_set_kind(result, NodeKind.assign_statement);
	_statement_set_next(result, 0);
	_assign_statement_set_assignee(result, assignee);

	(* Skip the assignment sign (:=) with surrounding whitespaces. *)
	_elna_lexer_read_token(@token_kind);
	_elna_lexer_skip_token();

	assignment_node := _elna_parser_binary_expression();
	_assign_statement_set_assignment(result, assignment_node);

	return result
end;

proc _elna_tac_assign_statement(parser_tree: Word, symbol_table: Word);
var
	current_expression: Word;
	is_address: Word;
	first_instruction: Word;
	instruction: Word;
	current_instruction: Word;
	operand_type: Word;
	operand_value: Word;
	operand_length: Word;
begin
	current_expression := _assign_statement_get_assignee(parser_tree);
	operand_type := 0;
	operand_value := 0;
	operand_length := 0;
	first_instruction := _elna_tac_designator(current_expression, symbol_table, @is_address, @operand_type, @operand_value, @operand_length);

	current_instruction := _elna_tac_instruction_create(ElnaTacOperator.get_address);
	_elna_tac_instruction_set_operand(current_instruction, 1, ElnaTacOperand.temporary, 6, 0);
	_elna_tac_instruction_set_operand(current_instruction, 2, operand_type, operand_value, operand_length);
	first_instruction := elna_instruction_list_concatenate(first_instruction, current_instruction);

	(* Save the assignee address on the stack. *)
	current_instruction := _elna_tac_instruction_create(ElnaTacOperator.store);
	_elna_tac_instruction_set_operand(current_instruction, 1, ElnaTacOperand.temporary, 6, 0);
	_elna_tac_instruction_set_operand(current_instruction, 2, ElnaTacOperand.stack, 76, 0);
	elna_instruction_list_concatenate(first_instruction, current_instruction);

	(* Compile the assignment. *)
	current_expression := _assign_statement_get_assignment(parser_tree);
	operand_type := 0;
	operand_value := 0;
	operand_length := 0;
	instruction := _elna_tac_binary_expression(current_expression, symbol_table, @operand_type, @operand_value, @operand_length);

	if instruction <> 0 then
		elna_instruction_list_concatenate(current_instruction, instruction);
		current_instruction := instruction
	end;

	instruction := _elna_tac_instruction_create(ElnaTacOperator.copy);
	_elna_tac_instruction_set_operand(instruction, 1, ElnaTacOperand.temporary, 7, 0);
	_elna_tac_instruction_set_operand(instruction, 2, ElnaTacOperand.stack, 76, 0);

	elna_instruction_list_concatenate(current_instruction, instruction);
	current_instruction := instruction;

	instruction := _elna_tac_instruction_create(ElnaTacOperator.store);
	_elna_tac_instruction_set_operand(instruction, 1, operand_type, operand_value, operand_length);
	_elna_tac_instruction_set_operand(instruction, 2, ElnaTacOperand.temporary, 7, 0);

	elna_instruction_list_concatenate(current_instruction, instruction);

	return first_instruction
end;

proc _elna_parser_return_statement();
var
	token_kind: Word;
	returned: Word;
	label_length: Word;
	result: Word;
begin
	(* Skip "return" keyword and whitespace after it. *)
	_elna_lexer_skip_token();
	_elna_lexer_read_token(@token_kind);

	returned := _elna_parser_binary_expression();
	result := malloc(_return_statement_size());

	_node_set_kind(result, NodeKind.return_statement);
	_statement_set_next(result, 0);
	_return_statement_set_returned(result, returned);

	return result
end;

proc _elna_tac_return_statement(parser_node: Word, symbol_table: Word);
var
	return_expression: Word;
	first_instruction: Word;
	instruction: Word;
	operand_type: Word;
	operand_value: Word;
	operand_length: Word;
begin
	operand_type := 0;
	operand_value := 0;
	operand_length := 0;
	return_expression := _return_statement_get_returned(parser_node);
	first_instruction := _elna_tac_binary_expression(return_expression, symbol_table, @operand_type, @operand_value, @operand_length);

	instruction := _elna_tac_instruction_create(ElnaTacOperator._return);
	_elna_tac_instruction_set_operand(instruction, 1, operand_type, operand_value, operand_length);

	return elna_instruction_list_concatenate(first_instruction, instruction)
end;

(**
 * Writes a label, .Ln, where n is a unique number.
 *
 * Parameters:
 * counter - Label counter.
 *)
proc _write_label(counter: Word, length: Word);
var
	first_byte: Word;
begin
	if length = 0 then
		_write_s(".L", 2);
		_write_i(counter)
	else
		first_byte := _load_byte(counter);
		if first_byte <> '.' then
			_write_c('.')
		end;
		_write_s(counter, length)
	end
end;

proc _elna_parser_conditional_statements();
var
	token_kind: Word;
	current_node: Word;
	result: Word;
begin
	result := malloc(_conditional_statements_size());

	(* Skip "if", "while" or "elsif". *)
	_elna_lexer_skip_token();

	current_node := _elna_parser_binary_expression();
	_conditional_statements_set_condition(result, current_node);

	(* Skip "then" or "do". *)
	_elna_lexer_read_token(@token_kind);
	_elna_lexer_skip_token();

	current_node := _elna_parser_statements();
	_conditional_statements_set_statements(result, current_node);

	_conditional_statements_set_next(result, 0);
	return result
end;

proc _elna_tac_conditional_statements(parser_node: Word, after_end_label: Word, symbol_table: Word);
var
	condition_label: Word;
	current_node: Word;
	instruction: Word;
	current_instruction: Word;
	first_instruction: Word;
	operand_type: Word;
	operand_value: Word;
	operand_length: Word;
begin
	(* Compile condition. *)
	operand_type := 0;
	operand_value := 0;
	operand_length := 0;
	current_node := _conditional_statements_get_condition(parser_node);
	first_instruction := _elna_tac_binary_expression(current_node, symbol_table, @operand_type, @operand_value, @operand_length);

	(* condition_label is the label in front of the next elsif condition or end. *)
	condition_label := label_counter;
	label_counter := label_counter + 1;

	current_instruction := _elna_tac_instruction_create(ElnaTacOperator.jump_if_zero);
	_elna_tac_instruction_set_operand(current_instruction, 1, operand_type, operand_value, operand_length);
	_elna_tac_instruction_set_operand(current_instruction, 2, ElnaTacOperand.symbol, condition_label, 0);

	elna_instruction_list_concatenate(first_instruction, current_instruction);

	current_node := _conditional_statements_get_statements(parser_node);
	instruction := _elna_tac_statements(current_node, symbol_table);
	if instruction <> 0 then
		elna_instruction_list_concatenate(current_instruction, instruction);
		current_instruction := instruction
	end;

	instruction := _elna_tac_instruction_create(ElnaTacOperator.jump);
	_elna_tac_instruction_set_operand(instruction, 1, ElnaTacOperand.symbol, after_end_label, 0);
	elna_instruction_list_concatenate(current_instruction, instruction);

	current_instruction := _elna_tac_label(condition_label, 0);
	elna_instruction_list_concatenate(instruction, current_instruction);

	return first_instruction
end;

proc _elna_parser_if_statement();
var
	current_node: Word;
	result: Word;
	token_kind: Word;
	previous_conditional: Word;
	next_conditional: Word;
begin
	result := malloc(_if_statement_size());

	_node_set_kind(result, NodeKind.if_statement);
	_statement_set_next(result, 0);

	previous_conditional := _elna_parser_conditional_statements();
	_if_statement_set_conditionals(result, previous_conditional);

	.elna_parser_if_statement_loop;
	_elna_lexer_read_token(@token_kind);

	if token_kind = ElnaLexerKind._elsif then
		next_conditional := _elna_parser_conditional_statements();
		_conditional_statements_set_next(previous_conditional, next_conditional);
		previous_conditional = next_conditional;

		goto elna_parser_if_statement_loop
	elsif token_kind = ElnaLexerKind._else then
		_elna_lexer_skip_token();

		current_node := _elna_parser_statements();
		_if_statement_set__else(result, current_node)
	else
		_if_statement_set__else(result, 0)
	end;
	_elna_lexer_skip_token();

	return result
end;

proc _elna_parser_statement();
var
	token_kind: Word;
	result : Word;
	temporary: Word;
begin
	result := 0;
	_elna_lexer_read_token(@token_kind);

	if token_kind = ElnaLexerKind._goto then
		result := _elna_parser_goto_statement()
	elsif token_kind = ElnaLexerKind._if then
		result := _elna_parser_if_statement()
	elsif token_kind = ElnaLexerKind._return then
		result := _elna_parser_return_statement()
	elsif token_kind = ElnaLexerKind.dot then
		result := _elna_parser_label_declaration()
	elsif token_kind = ElnaLexerKind.identifier then
		result := _elna_parser_designator();
		temporary := _node_get_kind(result);

		if temporary <> NodeKind.call then
			result := _elna_parser_assign_statement(result)
		end
	end;
	return result
end;

proc _elna_parser_statements();
var
	token_kind: Word;
	previous_statement: Word;
	next_statement: Word;
	first_statement: Word;
begin
	_skip_empty_lines();

	first_statement := _elna_parser_statement();
	previous_statement := first_statement;
	if previous_statement = 0 then
		goto elna_parser_statements_end
	end;

	.elna_parser_statement_loop;
	_elna_lexer_read_token(@token_kind);

	if token_kind = ElnaLexerKind.semicolon then
		_elna_lexer_skip_token();
		_skip_empty_lines();
		next_statement := _elna_parser_statement();
		_statement_set_next(previous_statement, next_statement);
		previous_statement := next_statement;

		if previous_statement <> 0 then
			goto elna_parser_statement_loop
		end
	end;
	.elna_parser_statements_end;
	_skip_empty_lines();

	return first_statement
end;

proc _elna_tac_statements(parser_node: Word, symbol_table: Word);
var
	current_statement: Word;
	instruction: Word;
	first_instruction: Word;
	current_instruction: Word;
begin
	current_statement := parser_node;
	first_instruction := 0;

	.elna_tac_statements_loop;
	if current_statement <> 0 then
		instruction := _elna_tac_statement(current_statement, symbol_table);
		current_statement := _statement_get_next(current_statement);
		if instruction = 0 then
			goto elna_tac_statements_loop
		end;
		if first_instruction = 0 then
			first_instruction := instruction
		else
			elna_instruction_list_concatenate(current_instruction, instruction)
		end;
		current_instruction := instruction;
		goto elna_tac_statements_loop
	end;
	return first_instruction
end;

proc _elna_tac_if_statement(parser_node: Word, symbol_table: Word);
var
	current_node: Word;
	after_end_label: Word;
	condition_label: Word;
	first_instruction: Word;
	instruction: Word;
	current_instruction: Word;
begin
	after_end_label := label_counter;
	label_counter := label_counter + 1;

	current_node := _if_statement_get_conditionals(parser_node);
	first_instruction := _elna_tac_conditional_statements(current_node, after_end_label, symbol_table);
	current_instruction := first_instruction;

	.elna_tac_if_statement_loop;
	current_node := _conditional_statements_get_next(current_node);
	if current_node <> 0 then
		instruction := _elna_tac_conditional_statements(current_node, after_end_label, symbol_table);
		elna_instruction_list_concatenate(current_instruction, instruction);
		current_instruction := instruction;
		goto elna_tac_if_statement_loop
	end;
	current_node := _if_statement_get__else(parser_node);

	if current_node <> 0 then
		instruction := _elna_tac_statements(current_node, symbol_table);
		if instruction <> 0 then
			elna_instruction_list_concatenate(current_instruction, instruction);
			current_instruction := instruction
		end
	end;
	instruction := _elna_tac_label(after_end_label, 0);
	elna_instruction_list_concatenate(current_instruction, instruction);

	return first_instruction
end;

proc _elna_tac_statement(parser_node: Word, symbol_table: Word);
var
	statement_kind: Word;
	instruction: Word;
begin
	statement_kind := _node_get_kind(parser_node);

	if statement_kind = NodeKind.goto_statement then
		instruction := _elna_tac_goto_statement(parser_node)
	elsif statement_kind = NodeKind.if_statement then
		instruction := _elna_tac_if_statement(parser_node, symbol_table)
	elsif statement_kind = NodeKind.return_statement then
		instruction := _elna_tac_return_statement(parser_node, symbol_table)
	elsif statement_kind = NodeKind.label_declaration then
		instruction := _elna_tac_label_declaration(parser_node)
	elsif statement_kind = NodeKind.call then
		instruction := _elna_tac_call(parser_node, symbol_table)
	elsif statement_kind = NodeKind.assign_statement then
		instruction := _elna_tac_assign_statement(parser_node, symbol_table)
	else
		instruction := 0
	end;
	return instruction
end;

(**
 * Writes a regster name to the standard output.
 *
 * Parameters:
 * register_character - Register character.
 * register_number - Register number.
 *)
proc _write_register(register_character: Word, register_number: Word);
begin
	_write_c(register_character);
	_write_c(register_number + '0')
end;

proc _elna_parser_record_type_expression();
var
	entry: Word;
	member_count: Word;
	memory_start: Word;
	field_name: Word;
	field_length: Word;
	field_type: Word;
	token_kind: Word;
	result: Word;
	previous_entry: Word;
begin
	_elna_lexer_skip_token();
	member_count := 0;
	memory_start := 0;

	_elna_lexer_read_token(@token_kind);
	if token_kind = ElnaLexerKind._end then
		goto elna_parser_record_type_expression_end
	end;
	.elna_parser_record_type_expression_loop;
	entry := malloc(16);
	member_count := member_count + 1;

	field_name := _elna_lexer_global_get_start();
	field_length := _elna_lexer_global_get_end() - field_name;

	entry^ := field_name;
	entry := entry + 4;

	entry^ := field_length;
	entry := entry + 4;

	(* Skip the identifier. *)
	_elna_lexer_skip_token();
	_elna_lexer_read_token(@token_kind);
	_elna_lexer_skip_token();

	field_type := _elna_parser_type_expression();

	entry^ := field_type;
	entry := entry + 4;

	entry^ := 0;
	if memory_start = 0 then
		memory_start := entry - 12
	else
		previous_entry^ := entry - 12
	end;
	previous_entry := entry;

	_elna_lexer_read_token(@token_kind);
	if token_kind = ElnaLexerKind.semicolon then
		_elna_lexer_skip_token();
		_elna_lexer_read_token(@token_kind);
		goto elna_parser_record_type_expression_loop
	end;

	.elna_parser_record_type_expression_end;
	_elna_lexer_skip_token();

	result := malloc(_enumeration_type_expression_size());

	_node_set_kind(result, NodeKind.record_type_expression);
	_record_type_expression_set_members(result, memory_start);
	_record_type_expression_set_length(result, member_count);

	return result
end;

proc _elna_parser_enumeration_type_expression();
var
	token_kind: Word;
	enumeration_name: Word;
	name_length: Word;
	memory_start: Word;
	member_count: Word;
	result: Word;
	entry: Word;
	previous_entry: Word;
begin
	_elna_lexer_skip_token();
	memory_start := 0;
	member_count := 0;

	_elna_lexer_read_token(@token_kind);
	if token_kind = ElnaLexerKind.right_paren then
		goto elna_parser_enumeration_type_expression_end
	end;
	.elna_parser_enumeration_type_expression_loop;
	entry := malloc(12);
	member_count := member_count + 1;

	enumeration_name := _elna_lexer_global_get_start();
	name_length := _elna_lexer_global_get_end() - enumeration_name;

	entry^ := enumeration_name;
	entry := entry + 4;

	entry^ := name_length;
	entry := entry + 4;

	entry^ := 0;
	if memory_start = 0 then
		memory_start := entry - 8
	else
		previous_entry^ := entry - 8
	end;
	previous_entry := entry;

	(* Skip the identifier. *)
	_elna_lexer_skip_token();

	_elna_lexer_read_token(@token_kind);
	if token_kind = ElnaLexerKind.comma then
		_elna_lexer_skip_token();
		_elna_lexer_read_token(@token_kind);
		goto elna_parser_enumeration_type_expression_loop
	end;

	.elna_parser_enumeration_type_expression_end;
	_elna_lexer_skip_token();

	result := malloc(_enumeration_type_expression_size());

	_node_set_kind(result, NodeKind.enumeration_type_expression);
	_enumeration_type_expression_set_members(result, memory_start);
	_enumeration_type_expression_set_length(result, member_count);

	return result
end;

(**
 * Reads and creates enumeration type representation.
 *
 * record
 *   type_kind: Word;
 *   size: Word;
 *   members: StringArray;
 *   length: Word
 * end;
 *
 * Returns enumeration type description.
 *)
proc _elna_name_type_enumeration(parser_node: Word);
var
	result: Word;
	memory_start: Word;
	member_count: Word;
	member_array_start: Word;
	member_array_current: Word;
begin
	result := malloc(_enumeration_type_size());

	memory_start := _enumeration_type_expression_get_members(parser_node);
	member_count := _enumeration_type_expression_get_length(parser_node);

	(* Copy the list of enumeration members into an array of strings. *)
	member_array_start := malloc(member_count * 8);
	member_array_current := member_array_start;

	.elna_name_type_enumeration_loop;
	if member_count > 0 then
		member_array_current^ := memory_start^;
		member_array_current := member_array_current + 4;
		memory_start := memory_start + 4;

		member_array_current^ := memory_start^;
		member_array_current := member_array_current + 4;
		memory_start := memory_start + 4;

		memory_start := memory_start^;
		member_count := member_count - 1;
		goto elna_name_type_enumeration_loop
	end;
	member_count := _enumeration_type_expression_get_length(parser_node);

	_type_set_kind(result, TypeKind.enumeration);
	_type_set_size(result, 4);
	_enumeration_type_set_members(result, member_array_start);
	_enumeration_type_set_length(result, member_count);

	return _type_info_create(result)
end;

proc _elna_name_type_record(parser_node: Word);
var
	result: Word;
	memory_start: Word;
	member_count: Word;
	member_array_start: Word;
	member_array_current: Word;
begin
	result := malloc(_record_type_size());

	memory_start := _record_type_expression_get_members(parser_node);
	member_count := _record_type_expression_get_length(parser_node);

	member_array_start := malloc(member_count * 12);
	member_array_current := member_array_start;

	.elna_name_type_record_loop;
	if member_count > 0 then
		member_array_current^ := memory_start^;
		member_array_current := member_array_current + 4;
		memory_start := memory_start + 4;

		member_array_current^ := memory_start^;
		member_array_current := member_array_current + 4;
		memory_start := memory_start + 4;

		member_array_current^ := _elna_name_type_expression(memory_start^);
		member_array_current := member_array_current + 4;
		memory_start := memory_start + 4;

		memory_start := memory_start^;
		member_count := member_count - 1;
		goto elna_name_type_record_loop
	end;
	member_count := _record_type_expression_get_length(parser_node);

	_type_set_kind(result, TypeKind._record);
	_type_set_size(result, member_count * 4);
	_record_type_set_members(result, member_array_start);
	_record_type_set_length(result, member_count);

	return _type_info_create(result)
end;

proc _elna_parser_named_type_expression();
var
	result: Word;
	type_name: Word;
	name_length: Word;
begin
	result := malloc(_named_type_expression_size());

	_node_set_kind(result, NodeKind.named_type_expression);
	type_name := _elna_lexer_global_get_start();
	name_length := _elna_lexer_global_get_end() - type_name;
	_named_type_expression_set_name(result, type_name);
	_named_type_expression_set_length(result, name_length);
	_elna_lexer_skip_token();

	return result
end;

proc _elna_parser_type_expression();
var
	token_kind: Word;
	result: Word;
begin
	result := 0;
	_elna_lexer_read_token(@token_kind);

	if token_kind = ElnaLexerKind.identifier then
		result := _elna_parser_named_type_expression()
	elsif token_kind = ElnaLexerKind.left_paren then
		result := _elna_parser_enumeration_type_expression()
	elsif token_kind = ElnaLexerKind._record then
		result := _elna_parser_record_type_expression()
	end;
	return result
end;

proc _elna_name_type_expression(parser_node: Word);
var
	token_kind: Word;
	type_name: Word;
	name_length: Word;
	result: Word;
begin
	token_kind := _node_get_kind(parser_node);

	if token_kind = NodeKind.named_type_expression then
		type_name := _named_type_expression_get_name(parser_node);
		name_length := _named_type_expression_get_length(parser_node);

		result := _symbol_table_lookup(@symbol_table_global, type_name, name_length);
		result := _type_info_get__type(result)
	elsif token_kind = NodeKind.enumeration_type_expression then
		result := _elna_name_type_enumeration(parser_node)
	elsif token_kind = NodeKind.record_type_expression then
		result := _elna_name_type_record(parser_node)
	end;

	return result
end;

(**
 * Parameters:
 * parameter_index - Parameter index.
 *)
proc _parameter_info_create(parameter_index: Word);
var
	offset: Word;
	result: Word;
begin
	result := malloc(_parameter_info_size());
	_info_set_kind(result, InfoKind.parameter_info);

	(* Calculate the stack offset: 104 - (4 * parameter_counter) *)
	offset := parameter_index * 4;
	_parameter_info_set_offset(result, 104 - offset);

	return result
end;

proc _type_info_create(type_representation: Word);
var
	result: Word;
begin
	result := malloc(_type_info_size());
	_info_set_kind(result, InfoKind.type_info);
	_type_info_set__type(result, type_representation);

	return result
end;

(**
 * Parameters:
 * temporary_index - Parameter index.
 *)
proc _temporary_info_create(temporary_index: Word);
var
	result: Word;
begin
	result := malloc(_temporary_info_size());
	_info_set_kind(result, InfoKind.temporary_info);

	(* Calculate the stack offset: 4 * variable_counter. *)
	_temporary_info_set_offset(result, temporary_index * 4);

	return result
end;

(**
 * Parameters:
 * symbol_table - Local symbol table.
 *)
proc _procedure_info_create(symbol_table: Word);
var
	result: Word;
begin
	result := malloc(_procedure_info_size());
	_info_set_kind(result, InfoKind.procedure_info);
	_procedure_info_set_symbol_table(result, symbol_table);

	return result
end;

(**
 * Parameters:
 * parameter_index - Parameter index.
 *)
proc _elna_name_procedure_parameter(parser_node: Word, parameter_index: Word, symbol_table: Word);
var
	name_length: Word;
	info: Word;
	name_position: Word;
begin
	name_position := _declaration_get_name(parser_node);
	name_length := _declaration_get_length(parser_node);

	info := _parameter_info_create(parameter_index);
	_symbol_table_enter(symbol_table, name_position, name_length, info)
end;

(**
 * Parameters:
 * variable_index - Variable index.
 *)
proc _elna_name_procedure_temporary(parser_node: Word, variable_index: Word, symbol_table: Word);
var
	name_length: Word;
	info: Word;
	name_position: Word;
begin
	name_position := _declaration_get_name(parser_node);
	name_length := _declaration_get_length(parser_node);

	info := _temporary_info_create(variable_index);
	_symbol_table_enter(symbol_table, name_position, name_length, info)
end;

proc _elna_name_procedure_temporaries(parser_node: Word, symbol_table: Word);
var
	temporary_counter: Word;
begin
	temporary_counter := 0;

	.elna_name_procedure_temporaries_loop;
	if parser_node <> 0 then
		_elna_name_procedure_temporary(parser_node, temporary_counter, symbol_table);

		temporary_counter := temporary_counter + 1;
		parser_node := _declaration_get_next(parser_node);
		goto elna_name_procedure_temporaries_loop
	end
end;

proc _elna_parser_procedure_declaration();
var
	name_pointer: Word;
	name_length: Word;
	token_kind: Word;
	result: Word;
	parameter_head: Word;
begin
	result := malloc(_procedure_declaration_size());

	_node_set_kind(result, NodeKind.procedure_declaration);
	_declaration_set_next(result, 0);

	(* Skip "proc ". *)
	_elna_lexer_skip_token();

	_elna_lexer_read_token(@token_kind);
	name_pointer := _elna_lexer_global_get_start();
	name_length := _elna_lexer_global_get_end() - name_pointer;

	_declaration_set_name(result, name_pointer);
	_declaration_set_length(result, name_length);
	(* Skip procedure name. *)
	_elna_lexer_skip_token();

	(* Skip open paren. *)
	_elna_lexer_read_token(@token_kind);
	_elna_lexer_skip_token();
	parameter_head := 0;

	.elna_parser_procedure_declaration_parameter;
	_elna_lexer_read_token(@token_kind);

	if token_kind <> ElnaLexerKind.right_paren then
		name_pointer := _elna_parser_variable_declaration();
		if parameter_head = 0 then
			parameter_head := name_pointer
		else
			_declaration_set_next(name_length, name_pointer)
		end;
		name_length := name_pointer;

		_elna_lexer_read_token(@token_kind);

		if token_kind = ElnaLexerKind.comma then
			_elna_lexer_skip_token();
			goto elna_parser_procedure_declaration_parameter
		end
	end;
	(* Skip close paren. *)
	_elna_lexer_skip_token();
	_procedure_declaration_set_parameters(result, parameter_head);

	(* Skip semicolon and newline. *)
	_elna_lexer_read_token(@token_kind);
	_elna_lexer_skip_token();

	parameter_head := _elna_parser_var_part();
	_procedure_declaration_set_temporaries(result, parameter_head);

	(* Skip semicolon, "begin" and newline. *)
	_elna_lexer_read_token(@token_kind);
	if token_kind = ElnaLexerKind._begin then
		_elna_lexer_skip_token();
		parameter_head := _elna_parser_statements()
	elsif token_kind = ElnaLexerKind._return then
		parameter_head := _elna_parser_return_statement()
	end;
	_procedure_declaration_set_body(result, parameter_head);

	(* Skip the "end" keyword. *)
	_elna_lexer_read_token(@token_kind);
	_elna_lexer_skip_token();

	return result
end;

proc _elna_tac_parameters(current_parameter: Word, new_symbol_table: Word);
var
	name_pointer: Word;
	name_length: Word;
	parameter_counter: Word;
	instruction: Word;
	first_instruction: Word;
	current_instruction: Word;
	symbol_info: Word;
begin
	first_instruction := 0;
	parameter_counter := 0;

	.elna_tac_parameters_loop;
	if current_parameter <> 0 then
		name_pointer := _declaration_get_name(current_parameter);
		name_length := _declaration_get_length(current_parameter);
		symbol_info := _symbol_table_lookup(new_symbol_table, name_pointer, name_length);

		symbol_info := _parameter_info_get_offset(symbol_info);

		instruction := _elna_tac_instruction_create(ElnaTacOperator.store);
		_elna_tac_instruction_set_operand(instruction, 1, ElnaTacOperand.temporary, 11 + parameter_counter, 0);
		_elna_tac_instruction_set_operand(instruction, 2, ElnaTacOperand.stack, symbol_info, 0);
		if first_instruction = 0 then
			first_instruction := instruction
		else
			elna_instruction_list_concatenate(current_instruction, instruction)
		end;
		current_instruction := instruction;

		parameter_counter := parameter_counter + 1;

		current_parameter := _declaration_get_next(current_parameter);
		goto elna_tac_parameters_loop
	end;
	return first_instruction
end;

proc elna_rtl_global_declaration(tac_declaration: Word);
var
	name: Word;
	length: Word;
	body: Word;
	result: Word;
begin
	result := malloc(ElnaInstructionDeclaration_size());
	name := ElnaInstructionDeclaration_get_name(tac_declaration);
	length := ElnaInstructionDeclaration_get_length(tac_declaration);
	body := ElnaInstructionDeclaration_get_body(tac_declaration);

	ElnaInstructionList_set_next(result, 0);
	ElnaInstructionDeclaration_set_name(result, name);
	ElnaInstructionDeclaration_set_length(result, length);
	ElnaInstructionDeclaration_set_body(result, body);

	return result
end;

proc elna_rtl_procedure_declaration(tac_declaration: Word);
var
	name: Word;
	length: Word;
	body: Word;
	result: Word;
	return_instruction: Word;
	has_stack: Word;
begin
	result := malloc(ElnaInstructionDeclaration_size());
	name := ElnaInstructionDeclaration_get_name(tac_declaration);
	length := ElnaInstructionDeclaration_get_length(tac_declaration);
	has_stack := ElnaInstructionDeclaration_get_stack(tac_declaration);
	body := ElnaInstructionDeclaration_get_body(tac_declaration);
	body := elna_rtl_instructions(body);

	return_instruction := elna_rtl_instruction_create(ElnaRtlOperator.allocate_stack);
	ElnaInstructionList_set_next(return_instruction, body);
	body := return_instruction;
	return_instruction := elna_rtl_instruction_create(ElnaRtlOperator.ret);
	elna_instruction_list_concatenate(body, return_instruction);

	ElnaInstructionList_set_next(result, 0);
	ElnaInstructionDeclaration_set_name(result, name);
	ElnaInstructionDeclaration_set_length(result, length);
	ElnaInstructionDeclaration_set_stack(result, has_stack);
	ElnaInstructionDeclaration_set_body(result, body);

	return result
end;

proc _elna_tac_procedure_declaration(parser_node: Word);
var
	name_pointer: Word;
	name_length: Word;
	current_parameter: Word;
	body: Word;
	new_symbol_table: Word;
	symbol_info: Word;
	instruction: Word;
	first_instruction: Word;
	result: Word;
	result_size: Word;
begin
	result := malloc(ElnaInstructionDeclaration_size());

	ElnaInstructionList_set_next(result, 0);
	ElnaInstructionDeclaration_set_stack(result, 1);

	name_pointer := _declaration_get_name(parser_node);
	name_length := _declaration_get_length(parser_node);

	ElnaInstructionDeclaration_set_name(result, name_pointer);
	ElnaInstructionDeclaration_set_length(result, name_length);

	symbol_info := _symbol_table_lookup(@symbol_table_global, name_pointer, name_length);
	new_symbol_table := _procedure_info_get_symbol_table(symbol_info);

	current_parameter := _procedure_declaration_get_parameters(parser_node);
	first_instruction := _elna_tac_parameters(current_parameter, new_symbol_table);

	body := _procedure_declaration_get_body(parser_node);
	instruction := _elna_tac_statements(body, new_symbol_table);
	first_instruction := elna_instruction_list_concatenate(first_instruction, instruction);

	ElnaInstructionDeclaration_set_body(result, first_instruction);

	return result
end;

proc _elna_parser_procedures();
var
	parser_node: Word;
	result: Word;
	current_declaration: Word;
	token_kind: Word;
begin
	result := 0;

	.elna_parser_procedures_loop;
	_skip_empty_lines();
	_elna_lexer_read_token(@token_kind);

	if token_kind = ElnaLexerKind._proc then
		parser_node := _elna_parser_procedure_declaration();
		if result = 0 then
			result := parser_node
		else
			_declaration_set_next(current_declaration, parser_node)
		end;
		current_declaration := parser_node;

		(* Skip semicolon. *)
		_elna_lexer_read_token(@token_kind);
		_elna_lexer_skip_token();

		goto elna_parser_procedures_loop
	end;
	return result
end;

proc elna_rtl_globals(tac_procedure: Word);
var
	current_copy: Word;
	next_copy: Word;
	first_copy: Word;
begin
	if tac_procedure <> 0 then
		first_copy := elna_rtl_global_declaration(tac_procedure);
		tac_procedure := ElnaInstructionList_get_next(tac_procedure)
	else
		first_copy := 0;
	end;
	current_copy := first_copy;

	.elna_rtl_globals_start;

	if tac_procedure <> 0 then
		next_copy := elna_rtl_global_declaration(tac_procedure);

		tac_procedure := ElnaInstructionList_get_next(tac_procedure);
		ElnaInstructionList_set_next(current_copy, next_copy);
		current_copy := next_copy;
		goto elna_rtl_globals_start
	end;

	return first_copy
end;

proc elna_rtl_procedures(tac_procedure: Word);
var
	current_copy: Word;
	next_copy: Word;
	first_copy: Word;
begin
	if tac_procedure <> 0 then
		first_copy := elna_rtl_procedure_declaration(tac_procedure);
		tac_procedure := ElnaInstructionList_get_next(tac_procedure)
	else
		first_copy := 0;
	end;
	current_copy := first_copy;

	.elna_rtl_procedures_start;

	if tac_procedure <> 0 then
		next_copy := elna_rtl_procedure_declaration(tac_procedure);

		tac_procedure := ElnaInstructionList_get_next(tac_procedure);
		ElnaInstructionList_set_next(current_copy, next_copy);
		current_copy := next_copy;
		goto elna_rtl_procedures_start
	end;

	return first_copy
end;

proc _elna_tac_procedures(parser_node: Word);
var
	result: Word;
	current_procedure: Word;
	first_procedure: Word;
begin
	first_procedure := 0;

	.elna_tac_procedures_loop;
	if parser_node = 0 then
		goto elna_tac_procedures_end
	end;
	result := _elna_tac_procedure_declaration(parser_node);
	if first_procedure = 0 then
		first_procedure := result
	else
		ElnaInstructionList_set_next(current_procedure, result)
	end;
	current_procedure := result;

	parser_node := _declaration_get_next(parser_node);
	goto elna_tac_procedures_loop;

	.elna_tac_procedures_end;
	return first_procedure
end;

(**
 * Skips comments.
 *)
proc _skip_empty_lines();
var
	token_kind: Word;
begin
	.skip_empty_lines_rerun;

	_elna_lexer_read_token(@token_kind);

	if token_kind = ElnaLexerKind.comment then
		_elna_lexer_skip_token();
		goto skip_empty_lines_rerun
	end
end;

proc _elna_parser_type_declaration();
var
	token_kind: Word;
	type_name: Word;
	name_length: Word;
	parser_node: Word;
	result: Word;
begin
	_elna_lexer_read_token(@token_kind);
	type_name := _elna_lexer_global_get_start();
	name_length := _elna_lexer_global_get_end() - type_name;

	_elna_lexer_skip_token();
	_elna_lexer_read_token(@token_kind);
	_elna_lexer_skip_token();

	parser_node := _elna_parser_type_expression();
	result := malloc(_type_declaration_size());

	_node_set_kind(result, NodeKind.type_declaration);
	_declaration_set_next(result, 0);
	_declaration_set_name(result, type_name);
	_declaration_set_length(result, name_length);
	_type_declaration_set__type(result, parser_node);

	_elna_lexer_read_token(@token_kind);
	_elna_lexer_skip_token();

	return result
end;

proc _elna_name_type_declaration(parser_node: Word);
var
	type_name: Word;
	name_length: Word;
	type_info: Word;
begin
	type_name := _declaration_get_name(parser_node);
	name_length := _declaration_get_length(parser_node);

	parser_node := _type_declaration_get__type(parser_node);
	type_info := _elna_name_type_expression(parser_node);

	_symbol_table_enter(@symbol_table_global, type_name, name_length, type_info)
end;

proc _elna_type_type_declaration(parser_node: Word);
begin
end;

proc _elna_parser_type_part();
var
	token_kind: Word;
	parser_node: Word;
	result: Word;
	current_declaration: Word;
begin
	result := 0;
	_skip_empty_lines();
	_elna_lexer_read_token(@token_kind);

	if token_kind <> ElnaLexerKind._type then
		goto elna_parser_type_part_end
	end;
	_elna_lexer_skip_token();

	.elna_parser_type_part_loop;
	_skip_empty_lines();

	_elna_lexer_read_token(@token_kind);
	if token_kind = ElnaLexerKind.identifier then
		parser_node := _elna_parser_type_declaration();

		if result = 0 then
			result := parser_node
		else
			_declaration_set_next(current_declaration, parser_node)
		end;
		current_declaration := parser_node;
		goto elna_parser_type_part_loop
	end;

	.elna_parser_type_part_end;
	return result
end;

proc _elna_parser_variable_declaration();
var
	token_kind: Word;
	name: Word;
	name_length: Word;
	variable_type: Word;
	result: Word;
begin
	_elna_lexer_read_token(@token_kind);

	name := _elna_lexer_global_get_start();
	name_length := _elna_lexer_global_get_end() - name;

	(* Skip the variable name and colon with the type. *)
	_elna_lexer_skip_token();
	_elna_lexer_read_token(@token_kind);
	_elna_lexer_skip_token();

	variable_type := _elna_parser_type_expression();
	result := malloc(_variable_declaration_size());

	_node_set_kind(result, NodeKind.variable_declaration);
	_declaration_set_next(result, 0);
	_declaration_set_name(result, name);
	_declaration_set_length(result, name_length);
	_variable_declaration_set__type(result, variable_type);

	return result
end;

proc _elna_tac_variable_declaration(parser_tree: Word);
var
	name: Word;
	name_length: Word;
	variable_type: Word;
	result: Word;
begin
	result := malloc(ElnaInstructionDeclaration_size());

	ElnaInstructionList_set_next(result, 0);

	name := _declaration_get_name(parser_tree);
	name_length := _declaration_get_length(parser_tree);
	variable_type := _variable_declaration_get__type(parser_tree);

	ElnaInstructionDeclaration_set_name(result, name);
	ElnaInstructionDeclaration_set_length(result, name_length);

	name := _named_type_expression_get_name(variable_type);
	name_length := _named_type_expression_get_length(variable_type);

	if string_compare("Array", 5, name, name_length) then
		(* Else we assume this is a zeroed 4096 bytes big array. *)
		ElnaInstructionDeclaration_set_body(result, 4096)
	else
		ElnaInstructionDeclaration_set_body(result, 4)
	end;
	return result
end;

proc _elna_tac_accessor(name_pointer: Word, name_length: Word, field_pointer: Word, field_offset: Word, result: Word, method: Word);
var
	instruction: Word;
	new_name: Word;
	name_target: Word;
	new_length: Word;
	field_length: Word;
begin
	field_length := field_pointer + 4;
	field_length := field_length^;
	new_length := field_length + name_length;
	new_length := new_length + 5;

	result^ := malloc(ElnaInstructionDeclaration_size());
	ElnaInstructionList_set_next(result^, 0);
	ElnaInstructionDeclaration_set_stack(result^, 0);

	new_name := malloc(new_length);

	name_target := new_name;
	memcpy(name_target, name_pointer, name_length);
	name_target := name_target + name_length;
	memcpy(name_target, method, 5);
	name_target := name_target + 5;
	memcpy(name_target, field_pointer^, field_length);

	ElnaInstructionDeclaration_set_name(result^, new_name);
	ElnaInstructionDeclaration_set_length(result^, new_length);

	instruction := _elna_tac_instruction_create(ElnaTacOperator.add);

	_elna_tac_instruction_set_operand(instruction, 1, ElnaTacOperand.temporary, 11, 0);
	_elna_tac_instruction_set_operand(instruction, 2, ElnaTacOperand.temporary, 11, 0);
	_elna_tac_instruction_set_operand(instruction, 3, ElnaTacOperand.immediate, field_offset, 0);

	return instruction
end;

proc _elna_tac_type_field(name_pointer: Word, name_length: Word, field_pointer: Word, field_offset: Word);
var
	first_result: Word;
	second_result: Word;
	instruction: Word;
	next_instruction: Word;
begin
	instruction := _elna_tac_accessor(name_pointer, name_length, field_pointer, field_offset, @first_result, "_get_");
	next_instruction := _elna_tac_instruction_create(ElnaTacOperator.load);
	_elna_tac_instruction_set_operand(next_instruction, 1, ElnaTacOperand.temporary, 11, 0);
	_elna_tac_instruction_set_operand(next_instruction, 2, ElnaTacOperand.temporary, 11, 0);
	elna_instruction_list_concatenate(instruction, next_instruction);
	ElnaInstructionDeclaration_set_body(first_result, instruction);

	instruction := _elna_tac_accessor(name_pointer, name_length, field_pointer, field_offset, @second_result, "_set_");
	next_instruction := _elna_tac_instruction_create(ElnaTacOperator.store);
	_elna_tac_instruction_set_operand(next_instruction, 1, ElnaTacOperand.temporary, 12, 0);
	_elna_tac_instruction_set_operand(next_instruction, 2, ElnaTacOperand.temporary, 11, 0);
	elna_instruction_list_concatenate(instruction, next_instruction);
	ElnaInstructionDeclaration_set_body(second_result, instruction);

	ElnaInstructionList_set_next(first_result, second_result);

	return first_result
end;

proc _elna_tac_type_record(name_pointer: Word, name_length: Word, type_representation: Word, current_result: Word);
var
	first_result: Word;
	result: Word;
	type_size: Word;
	new_name: Word;
	new_length: Word;
	instruction: Word;
	field_count: Word;
	field_offset: Word;
	field_pointer: Word;
begin
	first_result := malloc(ElnaInstructionDeclaration_size());
	result := 0;

	type_size := _type_get_size(type_representation);
	new_length := name_length + 5;
	new_name := malloc(new_length);

	memcpy(new_name, name_pointer, name_length);
	memcpy(new_name + name_length, "_size", 5);

	ElnaInstructionDeclaration_set_name(first_result, new_name);
	ElnaInstructionDeclaration_set_length(first_result, new_length);

	instruction := _elna_tac_instruction_create(ElnaTacOperator.copy);
	_elna_tac_instruction_set_operand(instruction, 1, ElnaTacOperand.temporary, 11, 0);
	_elna_tac_instruction_set_operand(instruction, 2, ElnaTacOperand.immediate, type_size, 0);

	ElnaInstructionDeclaration_set_body(first_result, instruction);

	field_count := _record_type_get_length(type_representation);
	field_pointer := _record_type_get_members(type_representation);
	field_offset := 0;
	current_result^ := first_result;

	.elna_tac_type_record_fields;
	if field_count > 0 then
		result := _elna_tac_type_field(name_pointer, name_length, field_pointer, field_offset);

		ElnaInstructionList_set_next(current_result^, result);
		current_result^ := ElnaInstructionList_get_next(result);

		field_offset := field_offset + 4;
		field_count := field_count - 1;
		field_pointer := field_pointer + 12;
		goto elna_tac_type_record_fields
	end;

	return first_result
end;

proc _elna_tac_type_part(parser_node: Word);
var
	name_pointer: Word;
	name_length: Word;
	result: Word;
	first_result: Word;
	symbol: Word;
	info_type: Word;
	type_kind: Word;
	current_result: Word;
	out_result: Word;
begin
	first_result := 0;

	.elna_tac_type_part_loop;
	if parser_node = 0 then
		goto elna_tac_type_part_end
	end;

	name_pointer := _declaration_get_name(parser_node);
	name_length := _declaration_get_length(parser_node);
	symbol := _symbol_table_lookup(@symbol_table_global, name_pointer, name_length);

	info_type := _type_info_get__type(symbol);
	type_kind := _type_get_kind(info_type);

	if type_kind = TypeKind._record then
		result := _elna_tac_type_record(name_pointer, name_length, info_type, @out_result)
	else
		result := 0;
		out_result := 0
	end;
	if first_result = 0 then
		first_result := result;
		current_result := out_result
	elsif result <> 0 then
		ElnaInstructionList_set_next(current_result, result);
		current_result := out_result
	end;
	parser_node := _declaration_get_next(parser_node);
	goto elna_tac_type_part_loop;

	.elna_tac_type_part_end;
	return first_result
end;

proc _elna_parser_var_part();
var
	result: Word;
	token_kind: Word;
	variable_node: Word;
	current_declaration: Word;
begin
	result := 0;
	_elna_lexer_read_token(@token_kind);

	if token_kind <> ElnaLexerKind._var then
		goto elna_parser_var_part_end
	end;
	(* Skip "var". *)
	_elna_lexer_skip_token();

	.elna_parser_var_part_loop;
	_skip_empty_lines();
	_elna_lexer_read_token(@token_kind);

	if token_kind = ElnaLexerKind.identifier then
		variable_node := _elna_parser_variable_declaration();

		(* Skip semicolon. *)
		_elna_lexer_read_token(@token_kind);
		_elna_lexer_skip_token();

		if result = 0 then
			result := variable_node
		else
			_declaration_set_next(current_declaration, variable_node)
		end;
		current_declaration := variable_node;
		goto elna_parser_var_part_loop
	end;

	.elna_parser_var_part_end;
	return result
end;

proc _elna_tac_var_part(parser_node: Word);
var
	node: Word;
	current_variable: Word;
	first_variable: Word;
begin
	first_variable := 0;
	if parser_node = 0 then
		goto elna_tac_var_part_end
	end;

	.elna_tac_var_part_loop;
	node := _elna_tac_variable_declaration(parser_node);
	if first_variable = 0 then
		first_variable := node
	else
		ElnaInstructionList_set_next(current_variable, node)
	end;
	current_variable := node;

	parser_node := _declaration_get_next(parser_node);
	if parser_node <> 0 then
		goto elna_tac_var_part_loop
	end;

	.elna_tac_var_part_end;
	return first_variable
end;

proc _elna_parser_module_declaration();
var
	parser_node: Word;
	result: Word;
	token_kind: Word;
begin
	result := malloc(_module_declaration_size());

	_node_set_kind(result, NodeKind.module_declaration);

	(* Skip "program;". *)
	_skip_empty_lines();
	_elna_lexer_read_token(@token_kind);
	_elna_lexer_skip_token();
	_elna_lexer_read_token(@token_kind);
	_elna_lexer_skip_token();

	parser_node := _elna_parser_type_part();
	_module_declaration_set_types(result, parser_node);

	parser_node := _elna_parser_var_part();
	_module_declaration_set_globals(result, parser_node);

	parser_node := _elna_parser_procedures();
	_module_declaration_set_procedures(result, parser_node);

	return result
end;

(**
 * Process the source code and print the generated code.
 *)
proc _elna_tac_module_declaration(parser_node: Word);
var
	data_part: Word;
	code_part: Word;
	type_part: Word;
	current_declaration: Word;
	next_declaration: Word;
begin
	type_part := _module_declaration_get_types(parser_node);
	type_part := _elna_tac_type_part(type_part);

	data_part := _module_declaration_get_globals(parser_node);
	data_part := _elna_tac_var_part(data_part);

	code_part := _module_declaration_get_procedures(parser_node);
	code_part := _elna_tac_procedures(code_part);

	current_declaration := code_part;

	.elna_tac_module_declaration_types;
	next_declaration := ElnaInstructionList_get_next(current_declaration);
	if next_declaration <> 0 then
		current_declaration := next_declaration;

		goto elna_tac_module_declaration_types
	end;
	ElnaInstructionList_set_next(current_declaration, type_part);

	return elna_instruction_module_create(data_part, code_part)
end;

proc _elna_name_procedure_declaration(parser_node: Word);
var
	name_pointer: Word;
	name_length: Word;
	new_symbol_table: Word;
	parameter_counter: Word;
	symbol_info: Word;
	current_parameter: Word;
begin
	new_symbol_table := _symbol_table_create();
	symbol_info := _procedure_info_create(new_symbol_table);

	name_pointer := _declaration_get_name(parser_node);
	name_length := _declaration_get_length(parser_node);

	current_parameter := _procedure_declaration_get_parameters(parser_node);
	parameter_counter := 0;
	.elna_name_procedure_declaration_parameter;
	if current_parameter <> 0 then
		_elna_name_procedure_parameter(current_parameter, parameter_counter, new_symbol_table);
		parameter_counter := parameter_counter + 1;

		current_parameter := _declaration_get_next(current_parameter);
		goto elna_name_procedure_declaration_parameter
	end;
	current_parameter := _procedure_declaration_get_temporaries(parser_node);
	_elna_name_procedure_temporaries(current_parameter, new_symbol_table);

	_symbol_table_enter(@symbol_table_global, name_pointer, name_length, symbol_info)
end;

proc _elna_type_procedure_declaration(parser_node: Word);
begin
end;

proc _elna_name_module_declaration(parser_node: Word);
var
	current_part: Word;
	result: Word;
begin
	current_part := _module_declaration_get_types(parser_node);
	.elna_name_module_declaration_type;
	if current_part <> 0 then
		_elna_name_type_declaration(current_part);
		current_part := _declaration_get_next(current_part);

		goto elna_name_module_declaration_type
	end;

	current_part := _module_declaration_get_procedures(parser_node);
	.elna_name_module_declaration_procedure;
	if current_part <> 0 then
		_elna_name_procedure_declaration(current_part);
		current_part := _declaration_get_next(current_part);

		goto elna_name_module_declaration_procedure
	end
end;

proc _elna_type_module_declaration(parser_node: Word);
var
	current_part: Word;
begin
	current_part := _module_declaration_get_types(parser_node);
	.elna_type_module_declaration_type;
	if current_part <> 0 then
		_elna_type_type_declaration(current_part);
		current_part := _declaration_get_next(current_part);

		goto elna_type_module_declaration_type
	end;

	current_part := _module_declaration_get_procedures(parser_node);
	.elna_type_module_declaration_procedure;
	if current_part <> 0 then
		_elna_type_procedure_declaration(current_part);
		current_part := _declaration_get_next(current_part);

		goto elna_type_module_declaration_procedure
	end
end;

proc _compile();
var
	parser_node: Word;
	tac: Word;
	rtl: Word;
begin
	parser_node := _elna_parser_module_declaration();
	_elna_name_module_declaration(parser_node);
	_elna_type_module_declaration(parser_node);
	tac := _elna_tac_module_declaration(parser_node);
	rtl := elna_rtl_module_declaration(tac);
	_elna_writer_module(rtl)
end;

(**
 * Terminates the program. a0 contains the return code.
 *
 * Parameters:
 * a0 - Status code.
 *)
proc _exit(status: Word);
begin
	_syscall(status, 0, 0, 0, 0, 0, 93)
end;

(**
 * Looks for a symbol in the given symbol table.
 *
 * Parameters:
 * symbol_table - Symbol table.
 * symbol_name - Symbol name pointer.
 * name_length - Symbol name length.
 *
 * Returns the symbol pointer or 0 in a0.
 *)
proc _symbol_table_lookup(symbol_table: Word, symbol_name: Word, name_length: Word);
var
	result: Word;
	symbol_table_length: Word;
	current_name: Word;
	current_length: Word;
begin
	result := 0;

	(* The first word in the symbol table is its length, get it. *)
	symbol_table_length := symbol_table^;

	(* Go to the first symbol position. *)
	symbol_table := symbol_table + 4;

	.symbol_table_lookup_loop;
	if symbol_table_length = 0 then
		goto symbol_table_lookup_end
	end;

	(* Symbol name pointer and length. *)
	current_name := symbol_table^;
	current_length := symbol_table + 4;
	current_length := current_length^;

	(* If lengths don't match, exit and return nil. *)
	if name_length <> current_length then
		goto symbol_table_lookup_repeat
	end;
	(* If names don't match, exit and return nil. *)
	if memcmp(symbol_name, current_name, name_length) then
		goto symbol_table_lookup_repeat
	end;
	(* Otherwise, the symbol is found. *)
	result := symbol_table + 8;
	result := result^;
	goto symbol_table_lookup_end;

	.symbol_table_lookup_repeat;
	symbol_table := symbol_table + 12;
	symbol_table_length := symbol_table_length - 1;
	goto symbol_table_lookup_loop;

	.symbol_table_lookup_end;
	return result
end;

(**
 * Create a new local symbol table in the symbol memory region after the last
 * known symbol table.
 *)
proc _symbol_table_create();
var
	new_symbol_table: Word;
	table_length: Word;
	current_table: Word;
begin
	new_symbol_table := symbol_table_store;

	.symbol_table_create_loop;
	table_length := new_symbol_table^;

	if table_length <> 0 then
		table_length := table_length * 12;
		table_length := table_length + 4;
		new_symbol_table := new_symbol_table + table_length;
		goto symbol_table_create_loop
	end;

	return new_symbol_table
end;

(**
 * Inserts a symbol into the table.
 *
 * Parameters:
 * symbol_table - Symbol table.
 * symbol_name - Symbol name pointer.
 * name_length - Symbol name length.
 * symbol - Symbol pointer.
 *)
proc _symbol_table_enter(symbol_table: Word, symbol_name: Word, name_length: Word, symbol: Word);
var
	table_length: Word;
	symbol_pointer: Word;
begin
	(* The first word in the symbol table is its length, get it. *)
	table_length := symbol_table^;

	(* Calculate the offset for the new symbol. *)
	symbol_pointer := table_length * 12;
	symbol_pointer := symbol_pointer + 4;
	symbol_pointer := symbol_table + symbol_pointer;

	symbol_pointer^ := symbol_name;
	symbol_pointer := symbol_pointer + 4;
	symbol_pointer^ := name_length;
	symbol_pointer := symbol_pointer + 4;
	symbol_pointer^ := symbol;

	(* Increment the symbol table length. *)
	table_length := table_length + 1;
	symbol_table^ := table_length
end;

proc _symbol_table_build();
var
	current_info: Word;
	current_type: Word;
begin
	(* Set the table length to 0. *)
	symbol_table_global := 0;

	current_type := malloc(_type_size());
	_type_set_kind(current_type, TypeKind.primitive);
	_type_set_size(current_type, 4);

	(* Enter built-in symbols. *)
	current_info := _type_info_create(current_type);
	_symbol_table_enter(@symbol_table_global, "Word", 4, current_info);

	current_info := _type_info_create(current_type);
	_symbol_table_enter(@symbol_table_global, "Array", 5, current_info)
end;

(**
 * Assigns some value to at array index.
 *
 * Parameters:
 * array - Array pointer.
 * index - Index (word offset into the array).
 * data - Data to assign.
 *)
proc _assign_at(array: Word, index: Word, data: Word);
var
	target: Word;
begin
	target := index - 1;
	target := target * 4;
	target := array + target;

	target^ := data
end;

proc _get_at(array: Word, index: Word);
var
	target: Word;
begin
	target := index - 1;
	target := target * 4;
	target := array + target;

	return target^
end;

(**
 * Initializes the array with character classes.
 *)
proc _elna_lexer_classifications();
var
	code: Word;
begin
	_assign_at(@classification, 1, ElnaLexerClass.eof);
	_assign_at(@classification, 2, ElnaLexerClass.invalid);
	_assign_at(@classification, 3, ElnaLexerClass.invalid);
	_assign_at(@classification, 4, ElnaLexerClass.invalid);
	_assign_at(@classification, 5, ElnaLexerClass.invalid);
	_assign_at(@classification, 6, ElnaLexerClass.invalid);
	_assign_at(@classification, 7, ElnaLexerClass.invalid);
	_assign_at(@classification, 8, ElnaLexerClass.invalid);
	_assign_at(@classification, 9, ElnaLexerClass.invalid);
	_assign_at(@classification, 10, ElnaLexerClass.space);
	_assign_at(@classification, 11, ElnaLexerClass.space);
	_assign_at(@classification, 12, ElnaLexerClass.invalid);
	_assign_at(@classification, 13, ElnaLexerClass.invalid);
	_assign_at(@classification, 14, ElnaLexerClass.space);
	_assign_at(@classification, 15, ElnaLexerClass.invalid);
	_assign_at(@classification, 16, ElnaLexerClass.invalid);
	_assign_at(@classification, 17, ElnaLexerClass.invalid);
	_assign_at(@classification, 18, ElnaLexerClass.invalid);
	_assign_at(@classification, 19, ElnaLexerClass.invalid);
	_assign_at(@classification, 20, ElnaLexerClass.invalid);
	_assign_at(@classification, 21, ElnaLexerClass.invalid);
	_assign_at(@classification, 22, ElnaLexerClass.invalid);
	_assign_at(@classification, 23, ElnaLexerClass.invalid);
	_assign_at(@classification, 24, ElnaLexerClass.invalid);
	_assign_at(@classification, 25, ElnaLexerClass.invalid);
	_assign_at(@classification, 26, ElnaLexerClass.invalid);
	_assign_at(@classification, 27, ElnaLexerClass.invalid);
	_assign_at(@classification, 28, ElnaLexerClass.invalid);
	_assign_at(@classification, 29, ElnaLexerClass.invalid);
	_assign_at(@classification, 30, ElnaLexerClass.invalid);
	_assign_at(@classification, 31, ElnaLexerClass.invalid);
	_assign_at(@classification, 32, ElnaLexerClass.invalid);
	_assign_at(@classification, 33, ElnaLexerClass.space);
	_assign_at(@classification, 34, ElnaLexerClass.single);
	_assign_at(@classification, 35, ElnaLexerClass.double_quote);
	_assign_at(@classification, 36, ElnaLexerClass.other);
	_assign_at(@classification, 37, ElnaLexerClass.other);
	_assign_at(@classification, 38, ElnaLexerClass.single);
	_assign_at(@classification, 39, ElnaLexerClass.single);
	_assign_at(@classification, 40, ElnaLexerClass.single_quote);
	_assign_at(@classification, 41, ElnaLexerClass.left_paren);
	_assign_at(@classification, 42, ElnaLexerClass.right_paren);
	_assign_at(@classification, 43, ElnaLexerClass.asterisk);
	_assign_at(@classification, 44, ElnaLexerClass.single);
	_assign_at(@classification, 45, ElnaLexerClass.single);
	_assign_at(@classification, 46, ElnaLexerClass.minus);
	_assign_at(@classification, 47, ElnaLexerClass.dot);
	_assign_at(@classification, 48, ElnaLexerClass.single);
	_assign_at(@classification, 49, ElnaLexerClass.zero);
	_assign_at(@classification, 50, ElnaLexerClass.digit);
	_assign_at(@classification, 51, ElnaLexerClass.digit);
	_assign_at(@classification, 52, ElnaLexerClass.digit);
	_assign_at(@classification, 53, ElnaLexerClass.digit);
	_assign_at(@classification, 54, ElnaLexerClass.digit);
	_assign_at(@classification, 55, ElnaLexerClass.digit);
	_assign_at(@classification, 56, ElnaLexerClass.digit);
	_assign_at(@classification, 57, ElnaLexerClass.digit);
	_assign_at(@classification, 58, ElnaLexerClass.digit);
	_assign_at(@classification, 59, ElnaLexerClass.colon);
	_assign_at(@classification, 60, ElnaLexerClass.single);
	_assign_at(@classification, 61, ElnaLexerClass.less);
	_assign_at(@classification, 62, ElnaLexerClass.equals);
	_assign_at(@classification, 63, ElnaLexerClass.greater);
	_assign_at(@classification, 64, ElnaLexerClass.other);
	_assign_at(@classification, 65, ElnaLexerClass.single);
	_assign_at(@classification, 66, ElnaLexerClass.alpha);
	_assign_at(@classification, 67, ElnaLexerClass.alpha);
	_assign_at(@classification, 68, ElnaLexerClass.alpha);
	_assign_at(@classification, 69, ElnaLexerClass.alpha);
	_assign_at(@classification, 70, ElnaLexerClass.alpha);
	_assign_at(@classification, 71, ElnaLexerClass.alpha);
	_assign_at(@classification, 72, ElnaLexerClass.alpha);
	_assign_at(@classification, 73, ElnaLexerClass.alpha);
	_assign_at(@classification, 74, ElnaLexerClass.alpha);
	_assign_at(@classification, 75, ElnaLexerClass.alpha);
	_assign_at(@classification, 76, ElnaLexerClass.alpha);
	_assign_at(@classification, 77, ElnaLexerClass.alpha);
	_assign_at(@classification, 78, ElnaLexerClass.alpha);
	_assign_at(@classification, 79, ElnaLexerClass.alpha);
	_assign_at(@classification, 80, ElnaLexerClass.alpha);
	_assign_at(@classification, 81, ElnaLexerClass.alpha);
	_assign_at(@classification, 82, ElnaLexerClass.alpha);
	_assign_at(@classification, 83, ElnaLexerClass.alpha);
	_assign_at(@classification, 84, ElnaLexerClass.alpha);
	_assign_at(@classification, 85, ElnaLexerClass.alpha);
	_assign_at(@classification, 86, ElnaLexerClass.alpha);
	_assign_at(@classification, 87, ElnaLexerClass.alpha);
	_assign_at(@classification, 88, ElnaLexerClass.alpha);
	_assign_at(@classification, 89, ElnaLexerClass.alpha);
	_assign_at(@classification, 90, ElnaLexerClass.alpha);
	_assign_at(@classification, 91, ElnaLexerClass.alpha);
	_assign_at(@classification, 92, ElnaLexerClass.single);
	_assign_at(@classification, 93, ElnaLexerClass.backslash);
	_assign_at(@classification, 94, ElnaLexerClass.single);
	_assign_at(@classification, 95, ElnaLexerClass.single);
	_assign_at(@classification, 96, ElnaLexerClass.alpha);
	_assign_at(@classification, 97, ElnaLexerClass.other);
	_assign_at(@classification, 98, ElnaLexerClass.hex);
	_assign_at(@classification, 99, ElnaLexerClass.hex);
	_assign_at(@classification, 100, ElnaLexerClass.hex);
	_assign_at(@classification, 101, ElnaLexerClass.hex);
	_assign_at(@classification, 102, ElnaLexerClass.hex);
	_assign_at(@classification, 103, ElnaLexerClass.hex);
	_assign_at(@classification, 104, ElnaLexerClass.alpha);
	_assign_at(@classification, 105, ElnaLexerClass.alpha);
	_assign_at(@classification, 106, ElnaLexerClass.alpha);
	_assign_at(@classification, 107, ElnaLexerClass.alpha);
	_assign_at(@classification, 108, ElnaLexerClass.alpha);
	_assign_at(@classification, 109, ElnaLexerClass.alpha);
	_assign_at(@classification, 110, ElnaLexerClass.alpha);
	_assign_at(@classification, 111, ElnaLexerClass.alpha);
	_assign_at(@classification, 112, ElnaLexerClass.alpha);
	_assign_at(@classification, 113, ElnaLexerClass.alpha);
	_assign_at(@classification, 114, ElnaLexerClass.alpha);
	_assign_at(@classification, 115, ElnaLexerClass.alpha);
	_assign_at(@classification, 116, ElnaLexerClass.alpha);
	_assign_at(@classification, 117, ElnaLexerClass.alpha);
	_assign_at(@classification, 118, ElnaLexerClass.alpha);
	_assign_at(@classification, 119, ElnaLexerClass.alpha);
	_assign_at(@classification, 120, ElnaLexerClass.alpha);
	_assign_at(@classification, 121, ElnaLexerClass.x);
	_assign_at(@classification, 122, ElnaLexerClass.alpha);
	_assign_at(@classification, 123, ElnaLexerClass.alpha);
	_assign_at(@classification, 124, ElnaLexerClass.other);
	_assign_at(@classification, 125, ElnaLexerClass.single);
	_assign_at(@classification, 126, ElnaLexerClass.other);
	_assign_at(@classification, 127, ElnaLexerClass.single);
	_assign_at(@classification, 128, ElnaLexerClass.invalid);

	code := 129;

	(* Set the remaining 129 - 256 bytes to transitionClassOther. *)
	.create_classification_loop;
	_assign_at(@classification, code, ElnaLexerClass.other);
	code := code + 1;

	if code < 257 then
		goto create_classification_loop
	end
end;

proc _elna_lexer_get_transition(current_state: Word, character_class: Word);
var
	transition_table: Word;
	row_position: Word;
	column_position: Word;
	target: Word;
begin
	(* Each state is 8 bytes long (2 words: action and next state).
	There are 22 character classes, so a transition row 8 * 22 = 176 bytes long. *)
	row_position := current_state - 1;
	row_position := row_position * 176;

	column_position := character_class - 1;
	column_position := column_position * 8;

	target := _elna_lexer_get_transition_table();
	target := target + row_position;

	return target + column_position
end;

(**
 * Parameters:
 * current_state - First index into transitions table.
 * character_class - Second index into transitions table.
 * action - Action to assign.
 * next_state - Next state to assign.
 *)
proc _elna_lexer_set_transition(current_state: Word, character_class: Word, action: Word, next_state: Word);
var
	transition: Word;
begin
	transition := _elna_lexer_get_transition(current_state, character_class);

	_elna_lexer_transition_set_action(transition, action);
	_elna_lexer_transition_set_state(transition, next_state)
end;

(* Sets same action and state transition for all character classes in one transition row. *)

(**
 * Parameters:
 * current_state - Current state (Transition state enumeration).
 * default_action - Default action (Callback).
 * next_state - Next state (Transition state enumeration).
 *)
proc _elna_lexer_default_transition(current_state: Word, default_action: Word, next_state: Word);
begin
	_elna_lexer_set_transition(current_state, ElnaLexerClass.invalid, default_action, next_state);
	_elna_lexer_set_transition(current_state, ElnaLexerClass.digit, default_action, next_state);
	_elna_lexer_set_transition(current_state, ElnaLexerClass.alpha, default_action, next_state);
	_elna_lexer_set_transition(current_state, ElnaLexerClass.space, default_action, next_state);
	_elna_lexer_set_transition(current_state, ElnaLexerClass.colon, default_action, next_state);
	_elna_lexer_set_transition(current_state, ElnaLexerClass.equals, default_action, next_state);
	_elna_lexer_set_transition(current_state, ElnaLexerClass.left_paren, default_action, next_state);
	_elna_lexer_set_transition(current_state, ElnaLexerClass.right_paren, default_action, next_state);
	_elna_lexer_set_transition(current_state, ElnaLexerClass.asterisk, default_action, next_state);
	_elna_lexer_set_transition(current_state, ElnaLexerClass.backslash, default_action, next_state);
	_elna_lexer_set_transition(current_state, ElnaLexerClass.single, default_action, next_state);
	_elna_lexer_set_transition(current_state, ElnaLexerClass.hex, default_action, next_state);
	_elna_lexer_set_transition(current_state, ElnaLexerClass.zero, default_action, next_state);
	_elna_lexer_set_transition(current_state, ElnaLexerClass.x, default_action, next_state);
	_elna_lexer_set_transition(current_state, ElnaLexerClass.eof, default_action, next_state);
	_elna_lexer_set_transition(current_state, ElnaLexerClass.dot, default_action, next_state);
	_elna_lexer_set_transition(current_state, ElnaLexerClass.minus, default_action, next_state);
	_elna_lexer_set_transition(current_state, ElnaLexerClass.single_quote, default_action, next_state);
	_elna_lexer_set_transition(current_state, ElnaLexerClass.double_quote, default_action, next_state);
	_elna_lexer_set_transition(current_state, ElnaLexerClass.greater, default_action, next_state);
	_elna_lexer_set_transition(current_state, ElnaLexerClass.less, default_action, next_state);
	_elna_lexer_set_transition(current_state, ElnaLexerClass.other, default_action, next_state)
end;

(**
 * The transition table describes transitions from one state to another, given
 * a symbol (character class).
 *
 * The table has m rows and n columns, where m is the amount of states and n is
 * the amount of classes. So given the current state and a classified character
 * the table can be used to look up the next state.
 *)
proc _elna_lexer_transitions();
begin
	(* Start state. *)
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.invalid, ElnaLexerAction.none, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.digit, ElnaLexerAction.accumulate, ElnaLexerState.decimal);
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.alpha, ElnaLexerAction.accumulate, ElnaLexerState.identifier);
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.space, ElnaLexerAction.skip, ElnaLexerState.start);
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.colon, ElnaLexerAction.accumulate, ElnaLexerState.colon);
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.equals, ElnaLexerAction.single, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.left_paren, ElnaLexerAction.accumulate, ElnaLexerState.left_paren);
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.right_paren, ElnaLexerAction.single, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.asterisk, ElnaLexerAction.single, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.backslash, ElnaLexerAction.none, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.single, ElnaLexerAction.single, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.hex, ElnaLexerAction.accumulate, ElnaLexerState.identifier);
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.zero, ElnaLexerAction.accumulate, ElnaLexerState.leading_zero);
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.x, ElnaLexerAction.accumulate, ElnaLexerState.identifier);
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.eof, ElnaLexerAction.eof, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.dot, ElnaLexerAction.single, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.minus, ElnaLexerAction.accumulate, ElnaLexerState.minus);
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.single_quote, ElnaLexerAction.accumulate, ElnaLexerState.character);
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.double_quote, ElnaLexerAction.accumulate, ElnaLexerState.string);
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.greater, ElnaLexerAction.accumulate, ElnaLexerState.greater);
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.less, ElnaLexerAction.accumulate, ElnaLexerState.less);
	_elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.other, ElnaLexerAction.none, ElnaLexerState.finish);

	(* Colon state. *)
	_elna_lexer_default_transition(ElnaLexerState.colon, ElnaLexerAction.finalize, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.colon, ElnaLexerClass.equals, ElnaLexerAction.composite, ElnaLexerState.finish);

	(* Identifier state. *)
	_elna_lexer_default_transition(ElnaLexerState.identifier, ElnaLexerAction.key_id, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.identifier, ElnaLexerClass.digit, ElnaLexerAction.accumulate, ElnaLexerState.identifier);
	_elna_lexer_set_transition(ElnaLexerState.identifier, ElnaLexerClass.alpha, ElnaLexerAction.accumulate, ElnaLexerState.identifier);
	_elna_lexer_set_transition(ElnaLexerState.identifier, ElnaLexerClass.hex, ElnaLexerAction.accumulate, ElnaLexerState.identifier);
	_elna_lexer_set_transition(ElnaLexerState.identifier, ElnaLexerClass.zero, ElnaLexerAction.accumulate, ElnaLexerState.identifier);
	_elna_lexer_set_transition(ElnaLexerState.identifier, ElnaLexerClass.x, ElnaLexerAction.accumulate, ElnaLexerState.identifier);

	(* Decimal state. *)
	_elna_lexer_default_transition(ElnaLexerState.decimal, ElnaLexerAction.integer, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.decimal, ElnaLexerClass.digit, ElnaLexerAction.accumulate, ElnaLexerState.decimal);
	_elna_lexer_set_transition(ElnaLexerState.decimal, ElnaLexerClass.alpha, ElnaLexerAction.none, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.decimal, ElnaLexerClass.hex, ElnaLexerAction.none, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.decimal, ElnaLexerClass.zero, ElnaLexerAction.accumulate, ElnaLexerState.decimal);
	_elna_lexer_set_transition(ElnaLexerState.decimal, ElnaLexerClass.x, ElnaLexerAction.none, ElnaLexerState.finish);

	(* Leading zero. *)
	_elna_lexer_default_transition(ElnaLexerState.leading_zero, ElnaLexerAction.integer, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.leading_zero, ElnaLexerClass.digit, ElnaLexerAction.none, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.leading_zero, ElnaLexerClass.alpha, ElnaLexerAction.none, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.leading_zero, ElnaLexerClass.hex, ElnaLexerAction.none, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.leading_zero, ElnaLexerClass.zero, ElnaLexerAction.none, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.leading_zero, ElnaLexerClass.x, ElnaLexerAction.none, ElnaLexerState.dot);

	(* Greater state. *)
	_elna_lexer_default_transition(ElnaLexerState.greater, ElnaLexerAction.finalize, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.greater, ElnaLexerClass.equals, ElnaLexerAction.composite, ElnaLexerState.finish);

	(* Minus state. *)
	_elna_lexer_default_transition(ElnaLexerState.minus, ElnaLexerAction.finalize, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.minus, ElnaLexerClass.greater, ElnaLexerAction.composite, ElnaLexerState.finish);

	(* Left paren state. *)
	_elna_lexer_default_transition(ElnaLexerState.left_paren, ElnaLexerAction.finalize, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.left_paren, ElnaLexerClass.asterisk, ElnaLexerAction.accumulate, ElnaLexerState.comment);

	(* Less state. *)
	_elna_lexer_default_transition(ElnaLexerState.less, ElnaLexerAction.finalize, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.less, ElnaLexerClass.equals, ElnaLexerAction.composite, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.less, ElnaLexerClass.greater, ElnaLexerAction.composite, ElnaLexerState.finish);

	(* Hexadecimal after 0x. *)
	_elna_lexer_default_transition(ElnaLexerState.dot, ElnaLexerAction.finalize, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.dot, ElnaLexerClass.dot, ElnaLexerAction.composite, ElnaLexerState.finish);

	(* Comment. *)
	_elna_lexer_default_transition(ElnaLexerState.comment, ElnaLexerAction.accumulate, ElnaLexerState.comment);
	_elna_lexer_set_transition(ElnaLexerState.comment, ElnaLexerClass.asterisk, ElnaLexerAction.accumulate, ElnaLexerState.closing_comment);
	_elna_lexer_set_transition(ElnaLexerState.comment, ElnaLexerClass.eof, ElnaLexerAction.none, ElnaLexerState.finish);

	(* Closing comment. *)
	_elna_lexer_default_transition(ElnaLexerState.closing_comment, ElnaLexerAction.accumulate, ElnaLexerState.comment);
	_elna_lexer_set_transition(ElnaLexerState.closing_comment, ElnaLexerClass.invalid, ElnaLexerAction.none, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.closing_comment, ElnaLexerClass.right_paren, ElnaLexerAction.delimited, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.closing_comment, ElnaLexerClass.asterisk, ElnaLexerAction.accumulate, ElnaLexerState.closing_comment);
	_elna_lexer_set_transition(ElnaLexerState.closing_comment, ElnaLexerClass.eof, ElnaLexerAction.none, ElnaLexerState.finish);

	(* Character. *)
	_elna_lexer_default_transition(ElnaLexerState.character, ElnaLexerAction.accumulate, ElnaLexerState.character);
	_elna_lexer_set_transition(ElnaLexerState.character, ElnaLexerClass.invalid, ElnaLexerAction.none, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.character, ElnaLexerClass.eof, ElnaLexerAction.none, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.character, ElnaLexerClass.single_quote, ElnaLexerAction.delimited, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.character, ElnaLexerClass.backslash, ElnaLexerAction.accumulate, ElnaLexerState.character_escape);

	(* Escape sequence in a character. *)
	_elna_lexer_default_transition(ElnaLexerState.character_escape, ElnaLexerAction.accumulate, ElnaLexerState.character);
	_elna_lexer_set_transition(ElnaLexerState.character_escape, ElnaLexerClass.invalid, ElnaLexerAction.none, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.character_escape, ElnaLexerClass.eof, ElnaLexerAction.none, ElnaLexerState.finish);

	(* String. *)
	_elna_lexer_default_transition(ElnaLexerState.string, ElnaLexerAction.accumulate, ElnaLexerState.string);
	_elna_lexer_set_transition(ElnaLexerState.string, ElnaLexerClass.invalid, ElnaLexerAction.none, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.string, ElnaLexerClass.eof, ElnaLexerAction.none, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.string, ElnaLexerClass.double_quote, ElnaLexerAction.delimited, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.string, ElnaLexerClass.backslash, ElnaLexerAction.accumulate, ElnaLexerState.string_escape);

	(* Escape sequence in a string. *)
	_elna_lexer_default_transition(ElnaLexerState.string_escape, ElnaLexerAction.accumulate, ElnaLexerState.string);
	_elna_lexer_set_transition(ElnaLexerState.string_escape, ElnaLexerClass.invalid, ElnaLexerAction.none, ElnaLexerState.finish);
	_elna_lexer_set_transition(ElnaLexerState.string_escape, ElnaLexerClass.eof, ElnaLexerAction.none, ElnaLexerState.finish)
end;

(**
 * Transition table is saved after character classification table.
 * Each character entry is 1 word long and there are 256 characters.
 * 1024 = 256 * 4
 *)
proc _elna_lexer_get_transition_table();
	return @classification + 1024
end;

(**
 * Lexer state is saved after the transition tables.
 * Each transition table entry is 8 bytes long. The table has 16 rows (transition states)
 * and 22 columns (character classes), so 2992 = 8 * 17 * 22.
 *)
proc _elna_lexer_global_state();
var
	result: Word;
begin
	result := _elna_lexer_get_transition_table();
	return  result + 2992
end;

(**
 * Gets pointer to the token start.
 *)
proc _elna_lexer_global_get_start();
var
	target: Word;
begin
	target := _elna_lexer_global_state() + 4;
	return target^
end;

(**
 * Sets pointer to the token start.
 *)
proc _elna_lexer_global_set_start(new_start: Word);
var
	target: Word;
begin
	target := _elna_lexer_global_state() + 4;
	target^ := new_start
end;

(**
 * Gets pointer to the token end.
 *)
proc _elna_lexer_global_get_end();
var
	target: Word;
begin
	target := _elna_lexer_global_state() + 8;
	return target^
end;

(**
 * Sets pointer to the token end.
 *)
proc _elna_lexer_global_set_end(new_start: Word);
var
	target: Word;
begin
	target := _elna_lexer_global_state() + 8;
	target^ := new_start
end;

proc _elna_lexer_transition_get_action(this: Word);
	return this^
end;

proc _elna_lexer_transition_set_action(this: Word, value: Word);
begin
	this^ := value
end;

proc _elna_lexer_transition_get_state(this: Word);
begin
	this := this + 4;
	return this^
end;

proc _elna_lexer_transition_set_state(this: Word, value: Word);
begin
	this := this + 4;
	this^ := value
end;

(**
 * Resets the lexer state for reading the next token.
 *)
proc _elna_lexer_reset();
var
	state: Word;
begin
	(* Transition start state is 1. *)
	state := _elna_lexer_global_state();
	state^ := ElnaLexerState.start;

	state := _elna_lexer_global_get_start();
	_elna_lexer_global_set_end(state)
end;

(**
 * One time lexer initialization.
 *)
proc _elna_lexer_initialize(code_pointer: Word);
begin
	_elna_lexer_classifications();
	_elna_lexer_transitions();

	_elna_lexer_global_set_start(code_pointer);
	_elna_lexer_global_set_end(code_pointer)
end;

proc _elna_lexer_next_transition();
var
	current_character: Word;
	character_class: Word;
	current_state: Word;
begin
	current_character := _elna_lexer_global_get_end();
	current_character := _load_byte(current_character);

	character_class := _get_at(@classification, current_character + 1);

	current_state := _elna_lexer_global_state();
	current_state := current_state^;

	return _elna_lexer_get_transition(current_state, character_class)
end;

proc string_compare(lhs_pointer: Word, lhs_length: Word, rhs_pointer: Word, rhs_length: Word);
var
	result: Word;
begin
	result := 0;

	if lhs_length = rhs_length then
		result := memcmp(lhs_pointer, rhs_pointer, lhs_length);
		result := result = 0
	end;
	return result
end;

proc _elna_lexer_classify_keyword(position_start: Word, position_end: Word);
var
	result: Word;
	token_length: Word;
begin
	result := ElnaLexerKind.identifier;
	token_length := position_end - position_start;

	if string_compare(position_start, token_length, "const", 5) then
		result := ElnaLexerKind._const
	elsif string_compare(position_start, token_length, "var", 3) then
		result := ElnaLexerKind._var
	elsif string_compare(position_start, token_length, "proc", 4) then
		result := ElnaLexerKind._proc
	elsif string_compare(position_start, token_length, "type", 4) then
		result := ElnaLexerKind._type
	elsif string_compare(position_start, token_length, "begin", 5) then
		result := ElnaLexerKind._begin
	elsif string_compare(position_start, token_length, "end", 3) then
		result := ElnaLexerKind._end
	elsif string_compare(position_start, token_length, "return", 6) then
		result := ElnaLexerKind._return
	elsif string_compare(position_start, token_length, "goto", 4) then
		result := ElnaLexerKind._goto
	elsif string_compare(position_start, token_length, "if", 2) then
		result := ElnaLexerKind._if
	elsif string_compare(position_start, token_length, "while", 5) then
		result := ElnaLexerKind._while
	elsif string_compare(position_start, token_length, "then", 4) then
		result := ElnaLexerKind._then
	elsif string_compare(position_start, token_length, "else", 4) then
		result := ElnaLexerKind._else
	elsif string_compare(position_start, token_length, "elsif", 5) then
		result := ElnaLexerKind._elsif
	elsif string_compare(position_start, token_length, "record", 6) then
		result := ElnaLexerKind._record
	elsif string_compare(position_start, token_length, "or", 2) then
		result := ElnaLexerKind._or
	elsif string_compare(position_start, token_length, "xor", 3) then
		result := ElnaLexerKind._xor
	elsif string_compare(position_start, token_length, "program", 7) then
		result := ElnaLexerKind._program
	elsif string_compare(position_start, token_length, "module", 6) then
		result := ElnaLexerKind._module
	elsif string_compare(position_start, token_length, "nil", 3) then
		result := ElnaLexerKind.null
	end;
	return result
end;

proc _elna_lexer_classify_finalize(start_position: Word);
var
	character: Word;
	result: Word;
begin
	result := 0;
	character := _load_byte(start_position);

	if character = ':' then
		result := ElnaLexerKind.colon
	elsif character = '.' then
		result := ElnaLexerKind.dot
	elsif character = '(' then
		result := ElnaLexerKind.left_paren
	elsif character = '-' then
		result := ElnaLexerKind.minus
	elsif character = '<' then
		result := ElnaLexerKind.less_than
	elsif character = '>' then
		result := ElnaLexerKind.greater_than
	end;
	return result
end;

proc _elna_lexer_classify_single(start_position: Word);
var
	character: Word;
	result: Word;
begin
	result := 0;
	character := _load_byte(start_position);

	if character = ';' then
		result := ElnaLexerKind.semicolon
	elsif character = ',' then
		result := ElnaLexerKind.comma
	elsif character = ')' then
		result := ElnaLexerKind.right_paren
	elsif character = '@' then
		result := ElnaLexerKind.at
	elsif character = '~' then
		result := ElnaLexerKind.not
	elsif character = '&' then
		result := ElnaLexerKind.and
	elsif character = '+' then
		result := ElnaLexerKind.plus
	elsif character = '*' then
		result := ElnaLexerKind.multiplication
	elsif character = '=' then
		result := ElnaLexerKind.equals
	elsif character = '%' then
		result := ElnaLexerKind.remainder
	elsif character = '/' then
		result := ElnaLexerKind.division
	elsif character = '.' then
		result := ElnaLexerKind.dot
	elsif character = '^' then
		result := ElnaLexerKind.hat
	end;
	return result
end;

proc _elna_lexer_classify_composite(start_position: Word, one_before_last: Word);
var
	first_character: Word;
	last_character: Word;
	result: Word;
begin
	first_character := _load_byte(start_position);
	last_character := _load_byte(one_before_last);

	if first_character = ':' then
		result := ElnaLexerKind.assignment
	elsif first_character = '<' then
		if last_character = '=' then
			result := ElnaLexerKind.less_equal
		elsif last_character = '>' then
			result := ElnaLexerKind.not_equal
		end
	elsif first_character = '>' then
		if last_character = '=' then
			result := ElnaLexerKind.greater_equal
		end
	end;

	return result
end;

proc _elna_lexer_classify_delimited(start_position: Word, end_position: Word);
var
	token_length: Word;
	delimiter: Word;
	result: Word;
begin
	token_length := end_position - start_position;
	delimiter := _load_byte(start_position);

	if delimiter = '(' then
		result := ElnaLexerKind.comment
	elsif delimiter = '\'' then
		result := ElnaLexerKind.character
	elsif delimiter = '"' then
		result := ElnaLexerKind.string
	end;
	return result
end;

proc _elna_lexer_classify_integer(start_position: Word, end_position: Word);
	return ElnaLexerKind.integer
end;

proc _elna_lexer_execute_action(action_to_perform: Word, kind: Word);
var
	position_start: Word;
	position_end: Word;
	intermediate: Word;
begin
	position_start := _elna_lexer_global_get_start();
	position_end := _elna_lexer_global_get_end();

	if action_to_perform = ElnaLexerAction.none then
	elsif action_to_perform = ElnaLexerAction.accumulate then
		_elna_lexer_global_set_end(position_end + 1)
	elsif action_to_perform = ElnaLexerAction.skip then
		_elna_lexer_global_set_start(position_start + 1);
		_elna_lexer_global_set_end(position_end + 1)
	elsif action_to_perform = ElnaLexerAction.single then
		_elna_lexer_global_set_end(position_end + 1);

		intermediate := _elna_lexer_classify_single(position_start);
		kind^ := intermediate
	elsif action_to_perform = ElnaLexerAction.eof then
		intermediate := ElnaLexerKind.eof;
		kind^ := intermediate
	elsif action_to_perform = ElnaLexerAction.finalize then
		intermediate := _elna_lexer_classify_finalize(position_start);
		kind^ := intermediate
	elsif action_to_perform = ElnaLexerAction.composite then
		_elna_lexer_global_set_end(position_end + 1);

		intermediate := _elna_lexer_classify_composite(position_start, position_end);
		kind^ := intermediate
	elsif action_to_perform = ElnaLexerAction.key_id then
		intermediate := _elna_lexer_classify_keyword(position_start, position_end);
		kind^ := intermediate
	elsif action_to_perform = ElnaLexerAction.integer then
		intermediate := _elna_lexer_classify_integer(position_start, position_end);
		kind^ := intermediate
	elsif action_to_perform = ElnaLexerAction.delimited then
		_elna_lexer_global_set_end(position_end + 1);

		intermediate := _elna_lexer_classify_delimited(position_start, position_end + 1);
		kind^ := intermediate
	end
end;

proc _elna_lexer_execute_transition(kind: Word);
var
	next_transition: Word;
	next_state: Word;
	global_state: Word;
	action_to_perform: Word;
begin
	next_transition := _elna_lexer_next_transition();
	next_state := _elna_lexer_transition_get_state(next_transition);
	action_to_perform := _elna_lexer_transition_get_action(next_transition);

	global_state := _elna_lexer_global_state();

	global_state^ := next_state;
	_elna_lexer_execute_action(action_to_perform, kind);

	return next_state
end;

proc _elna_lexer_advance_token(kind: Word);
var
	result_state: Word;
begin
	result_state := _elna_lexer_execute_transition(kind);
	if result_state <> ElnaLexerState.finish then
		_elna_lexer_advance_token(kind)
	end
end;

(**
 * Reads the next token and writes its type into the address in the kind parameter.
 *)
proc _elna_lexer_read_token(kind: Word);
begin
	_elna_lexer_reset();
	_elna_lexer_advance_token(kind)
end;

(**
 * Advances the token stream past the last read token.
 *)
proc _elna_lexer_skip_token();
var
	old_end: Word;
begin
	old_end := _elna_lexer_global_get_end();
	_elna_lexer_global_set_start(old_end)
end;

proc _initialize_global_state();
begin
	compiler_strings_position := @compiler_strings;
	source_code := malloc(495616);
	symbol_table_store := malloc(4194304);
	temporary_variable_counter := 0
end;

(*
 * Entry point.
 *)
proc main();
var
	last_read: Word;
	offset: Word;
begin
	_initialize_global_state();
	_elna_lexer_initialize(source_code);
	_symbol_table_build();

	(* Read the source from the standard input. *)
	offset := source_code;

	.start_read;
	(* Second argument is buffer size. Modifying update the source_code definition. *)
	last_read := _read_file(offset, 409600);
	if last_read > 0 then
		offset := offset + last_read;
		goto start_read
	end;
	_compile();

	_exit(0)
end;